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compare: OmniNX:0.8.1
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OmniNX:master OmniNX:webusb OmniNX:dev OmniNX:stream_installs OmniNX:touch
OmniNX:1.0.0 OmniNX:0.13.3 OmniNX:0.13.2 OmniNX:0.13.1 OmniNX:0.13.0 OmniNX:0.12.0 OmniNX:0.11.3 OmniNX:0.11.2 OmniNX:0.11.1 OmniNX:0.11.0 OmniNX:0.10.3 OmniNX:0.10.2 OmniNX:0.10.1 OmniNX:0.10.0 OmniNX:0.9.1 OmniNX:0.9.0 OmniNX:0.8.2 OmniNX:0.8.1 OmniNX:0.8.0 OmniNX:0.7.0 OmniNX:0.6.3 OmniNX:0.6.2 OmniNX:0.6.1 OmniNX:0.6.0 OmniNX:0.5.0 OmniNX:0.4.1 OmniNX:0.4.0 OmniNX:0.3.0

17 Commits
stream_ins ... 0.8.1

Author SHA1 Message Date
ITotalJustice
8ffaa56bc3 bump version for new release 0.8.0 -> 0.8.1 2025-04-29 20:03:23 +01:00
ITotalJustice
eca3358e57 add option to download default music. 2025-04-29 20:01:51 +01:00
ITotalJustice
757e380e08 play sound effect when gamecard is inserted. 2025-04-29 19:23:37 +01:00
ITotalJustice
6c1b5de932 label the shortcut for misc 2025-04-29 19:06:33 +01:00
ITotalJustice
d79ac126f7 remove all strings and error codes in error_box.cpp, reduce binary by a further 60k. 2025-04-29 18:56:55 +01:00
ITotalJustice
2d7763444e remove Web menu 
the web browser on the switch is really bad, it shouldnt be used.
i am removing this menu because its another option that gets in the way of other options, and code bloat.
 2025-04-29 18:42:32 +01:00
ITotalJustice
1dafa2748c remove IRS menu 
i added the irs menu when i wanted to mess around with the sensor on the joycon.
since then, i have used it a total of 0 times, and i don't think any users use it either.
 2025-04-29 18:37:43 +01:00
ITotalJustice
9f7bf9581c add boost mode option for installing 2025-04-29 18:33:02 +01:00
ITotalJustice
8f39acbaa2 replace usb protocol with tinfoils protocol, in order to support applications supporting said protocol. 
- replace the python script with the one included with tinfoil, minor changes such as changing the supported extension,
  removing unused imports.
- tested with the included script, fluffy and ns-usbloader on linux.
  a user was unable to get it working on mac however...
- added build instructions to the readme, i think they're correct.
- added install instructions to the readme.
 2025-04-29 18:11:07 +01:00
ITotalJustice
81469d0ac9 remove PageAlignedVector from yati as it's no longer needed due to previous commit. 
the previous commit changed usb transfers to always transfer to/from page aligned buffers.
i wanted to keep the commits seperate so that its easier revert or git bisect later on, if needed.
 2025-04-29 14:19:37 +01:00
ITotalJustice
1eae35f072 simplify the usb transfer process by using an aligned buffer to transfer to/from. 2025-04-29 14:17:12 +01:00
ITotalJustice
5b82e07b1c fix building due to previous commit 2025-04-29 13:08:32 +01:00
ITotalJustice
73886c28ae add gc event waiting, fix control nca mounting, better skip nca support. 
- gamecards now wait for an event to change, rather than polling each frame.
  this reduces cpu load on core 3 slightly (3-4% less).
- my understanding of fsOpenFileSystemWithId() was wrong, i thought it used the app_id for the id param.
  turns out it needs the program id (found in the nca header), this is why mounting some control ncas
  would fail.
  fs (and ncm) have a call in 17+ to get the program id, it does so by parsing the nca header.
  in yati, we already have the header so we can avoid the call.
  for the gamecard menu, we don't. so we can parse the nca header, or use the id offset (which we already have)
  to form the program id.
- std::find_if in yati now takes args by ref rather than by value, avoid quite large copies.
- stream installs can now parse the control nca.
- if an nca is already installed, it is now skipped. this is regardless to whether it is not in ncm db.
- nca skipping is technically supported for stream installs, however it is disabled for now as there needs
  to be a way to allow for the stream to continue reading and discarding data until the stream has finished.
  currently, if a ftp (stream) install is skipped, it will close the progress box and cause spahira to hang.
  this is because sphaira expects the stream to only be closed upon all data being read, so there's nothing more
  to process.
- renamed the title_id field in nca header to program_id.
 2025-04-29 12:47:38 +01:00
ITotalJustice
eea09f6e57 [appstore] make author search case insensitive. 2025-04-28 22:06:44 +01:00
ITotalJustice
282c6e5493 bump version for release 0.7.0 -> 0.8.0 2025-04-27 21:01:45 +01:00
ITotalJustice
2c2f602d14 add gc_menu, add progress, icon, time remaining to progress bar (see full commit message). 
- fix ignore distribution bit doing nothing.
- fix yati failing to parse control nca causing the transfer to abort.
- yati now uses ncm rather than ns to get the latest app version.
- improve ui::list input handling (it handles directional buttons now).
- progress bar displays speed and time remaining.
- added gc menu (taken from my gc installer nx and gci).
 2025-04-27 20:01:13 +01:00
ITotalJustice
f7f1254699 Merge pull request #128 from ITotalJustice/stream_installs 
Stream installs (FTP), and many fixes
 2025-04-23 01:02:26 +01:00
42 changed files with 1697 additions and 3157 deletions
Expand all files Collapse all files

34
README.md
View File

@@ -49,6 +49,40 @@ The `path` field is optional. If left out, it will use the name of the ini to fi
See `assets/romfs/assoc/` for more examples of file assoc entries.
## Installing (applications)
Sphaira can install applications (nsp, xci, nsz, xcz) from various sources (sd card, gamecard, ftp, usb).
For informantion about the install options, [see the wiki](https://github.com/ITotalJustice/sphaira/wiki/Install).
### Usb (install)
The USB protocol is the same as tinfoil, so tools such as [ns-usbloader](https://github.com/developersu/ns-usbloader) and [fluffy](https://github.com/fourminute/Fluffy) should work with sphaira. You may also use the provided python script found [here](tools/usb_install_pc.py).
### Ftp (install)
Once you have connected your ftp client to your switch, you can upload files to install into the `install` folder.
## Building from source
You will first need to install [devkitPro](https://devkitpro.org/wiki/Getting_Started).
Next you will need to install the dependencies:
```sh
sudo pacman -S switch-dev deko3d switch-cmake switch-curl switch-glm switch-zlib
```
Once devkitPro and all dependencies are installed, you can now build sphaira.
```sh
git clone https://github.com/ITotalJustice/sphaira.git
cd sphaira
cmake --preset MinSizeRel
cmake --build --preset MinSizeRel
```
The output will be found in `build/MinSizeRel/sphaira.nro`
## Credits
- borealis

4
sphaira/CMakeLists.txt
View File

@@ -1,6 +1,6 @@
cmake_minimum_required(VERSION 3.13)
set(sphaira_VERSION 0.7.0)
set(sphaira_VERSION 0.8.1)
project(sphaira
VERSION ${sphaira_VERSION}
@@ -41,7 +41,6 @@ add_executable(sphaira
source/ui/menus/file_viewer.cpp
source/ui/menus/filebrowser.cpp
source/ui/menus/homebrew.cpp
source/ui/menus/irs_menu.cpp
source/ui/menus/main_menu.cpp
source/ui/menus/menu_base.cpp
source/ui/menus/themezer.cpp
@@ -74,7 +73,6 @@ add_executable(sphaira
source/nxlink.cpp
source/owo.cpp
source/swkbd.cpp
source/web.cpp
source/i18n.cpp
source/ftpsrv_helper.cpp

8
sphaira/include/app.hpp
View File

@@ -102,6 +102,13 @@ public:
static void PlaySoundEffect(SoundEffect effect);
static void DisplayThemeOptions(bool left_side = true);
// todo:
static void DisplayNetworkOptions(bool left_side = true);
static void DisplayMiscOptions(bool left_side = true);
static void DisplayAdvancedOptions(bool left_side = true);
static void DisplayInstallOptions(bool left_side = true);
void Draw();
void Update();
void Poll();
@@ -182,6 +189,7 @@ public:
option::OptionBool m_install{INI_SECTION, "install", false};
option::OptionBool m_install_sd{INI_SECTION, "install_sd", true};
option::OptionLong m_install_prompt{INI_SECTION, "install_prompt", true};
option::OptionLong m_boost_mode{INI_SECTION, "boost_mode", false};
option::OptionBool m_allow_downgrade{INI_SECTION, "allow_downgrade", false};
option::OptionBool m_skip_if_already_installed{INI_SECTION, "skip_if_already_installed", true};
option::OptionBool m_ticket_only{INI_SECTION, "ticket_only", false};

5
sphaira/include/ui/error_box.hpp
View File

@@ -8,15 +8,14 @@ namespace sphaira::ui {
class ErrorBox final : public Widget {
public:
ErrorBox(Result code, const std::string& message);
ErrorBox(const std::string& message);
auto Update(Controller* controller, TouchInfo* touch) -> void override;
auto Draw(NVGcontext* vg, Theme* theme) -> void override;
private:
Result m_code{};
std::optional<Result> m_code{};
std::string m_message{};
std::string m_module_str{};
std::string m_description_str{};
};
} // namespace sphaira::ui

4
sphaira/include/ui/list.hpp
View File

@@ -6,11 +6,11 @@ namespace sphaira::ui {
struct List final : Object {
using Callback = std::function<void(NVGcontext* vg, Theme* theme, Vec4 v, s64 index)>;
using TouchCallback = std::function<void(s64 index)>;
using TouchCallback = std::function<void(bool touch, s64 index)>;
List(s64 row, s64 page, const Vec4& pos, const Vec4& v, const Vec2& pad = {});
void OnUpdate(Controller* controller, TouchInfo* touch, s64 count, TouchCallback callback);
void OnUpdate(Controller* controller, TouchInfo* touch, s64 index, s64 count, TouchCallback callback);
void Draw(NVGcontext* vg, Theme* theme, s64 count, Callback callback) const;

72
sphaira/include/ui/menus/gc_menu.hpp
View File

@@ -3,20 +3,40 @@
#include "ui/menus/menu_base.hpp"
#include "yati/container/base.hpp"
#include "yati/source/base.hpp"
#include "ui/list.hpp"
#include <span>
#include <memory>
namespace sphaira::ui::menu::gc {
enum class State {
// no gamecard inserted.
None,
// set whilst transfer is in progress.
Progress,
// set when the transfer is finished.
Done,
// set when no gamecard is inserted.
NotFound,
// failed to parse gamecard.
Failed,
struct GcCollection : yati::container::CollectionEntry {
GcCollection(const char* _name, s64 _size, u8 _type, u8 _id_offset) {
name = _name;
size = _size;
type = _type;
id_offset = _id_offset;
}
// NcmContentType
u8 type{};
u8 id_offset{};
};
using GcCollections = std::vector<GcCollection>;
struct ApplicationEntry {
u64 app_id{};
u32 version{};
u8 key_gen{};
std::vector<GcCollections> application{};
std::vector<GcCollections> patch{};
std::vector<GcCollections> add_on{};
std::vector<GcCollections> data_patch{};
yati::container::Collections tickets{};
auto GetSize() const -> s64;
auto GetSize(const std::vector<GcCollections>& entries) const -> s64;
};
struct Menu final : MenuBase {
@@ -26,13 +46,35 @@ struct Menu final : MenuBase {
void Update(Controller* controller, TouchInfo* touch) override;
void Draw(NVGcontext* vg, Theme* theme) override;
Result ScanGamecard();
private:
Result GcMount();
void GcUnmount();
Result GcPoll(bool* inserted);
Result GcOnEvent();
Result UpdateStorageSize();
void FreeImage();
void OnChangeIndex(s64 new_index);
private:
std::unique_ptr<fs::FsNativeGameCard> m_fs{};
FsDeviceOperator m_dev_op{};
yati::container::Collections m_collections{};
State m_state{State::None};
FsGameCardHandle m_handle{};
std::unique_ptr<fs::FsNativeGameCard> m_fs{};
FsEventNotifier m_event_notifier{};
Event m_event{};
std::vector<ApplicationEntry> m_entries{};
std::unique_ptr<List> m_list{};
s64 m_entry_index{};
s64 m_option_index{};
s64 m_size_free_sd{};
s64 m_size_total_sd{};
s64 m_size_free_nand{};
s64 m_size_total_nand{};
NacpLanguageEntry m_lang_entry{};
int m_icon{};
bool m_mounted{};
};
} // namespace sphaira::ui::menu::gc

67
sphaira/include/ui/menus/irs_menu.hpp
View File

@@ -1,67 +0,0 @@
#pragma once
#include "ui/menus/menu_base.hpp"
#include <span>
namespace sphaira::ui::menu::irs {
enum Rotation {
Rotation_0,
Rotation_90,
Rotation_180,
Rotation_270,
};
enum Colour {
Colour_Grey,
Colour_Ironbow,
Colour_Green,
Colour_Red,
Colour_Blue,
};
struct Entry {
IrsIrCameraHandle m_handle{};
IrsIrCameraStatus status{};
bool m_update_needed{};
};
struct Menu final : MenuBase {
Menu();
~Menu();
void Update(Controller* controller, TouchInfo* touch) override;
void Draw(NVGcontext* vg, Theme* theme) override;
void OnFocusGained() override;
void PollCameraStatus(bool statup = false);
void LoadDefaultConfig();
void UpdateConfig(const IrsImageTransferProcessorExConfig* config);
void ResetImage();
void UpdateImage();
void updateColourArray();
private:
Result m_init_rc{};
IrsImageTransferProcessorExConfig m_config{};
IrsMomentProcessorConfig m_moment_config{};
IrsClusteringProcessorConfig m_clustering_config{};
IrsTeraPluginProcessorConfig m_tera_config{};
IrsIrLedProcessorConfig m_led_config{};
IrsAdaptiveClusteringProcessorConfig m_adaptive_config{};
IrsHandAnalysisConfig m_hand_config{};
Entry m_entries[IRS_MAX_CAMERAS]{};
u32 m_irs_width{};
u32 m_irs_height{};
std::vector<u32> m_rgba{};
std::vector<u8> m_irs_buffer{};
IrsImageTransferProcessorState m_prev_state{};
Rotation m_rotation{Rotation_90};
Colour m_colour{Colour_Grey};
int m_image{};
s64 m_index{};
};
} // namespace sphaira::ui::menu::irs

7
sphaira/include/ui/menus/usb_menu.hpp
View File

@@ -8,8 +8,10 @@ namespace sphaira::ui::menu::usb {
enum class State {
// not connected.
None,
// just connected, waiting for file list.
Connected_WaitForFileList,
// just connected, starts the transfer.
Connected,
Connected_StartingTransfer,
// set whilst transfer is in progress.
Progress,
// set when the transfer is finished.
@@ -35,9 +37,8 @@ struct Menu final : MenuBase {
Mutex m_mutex{};
// the below are shared across threads, lock with the above mutex!
State m_state{State::None};
std::vector<std::string> m_names{};
bool m_usb_has_connection{};
u32 m_usb_speed{};
u32 m_usb_count{};
};
} // namespace sphaira::ui::menu::usb

14
sphaira/include/ui/nvg_util.hpp
View File

@@ -5,17 +5,15 @@
namespace sphaira::ui::gfx {
void drawImage(NVGcontext*, float x, float y, float w, float h, int texture);
void drawImage(NVGcontext*, const Vec4& v, int texture);
void drawImageRounded(NVGcontext*, float x, float y, float w, float h, int texture);
void drawImageRounded(NVGcontext*, const Vec4& v, int texture);
void drawImage(NVGcontext*, float x, float y, float w, float h, int texture, float rounded = 0.F);
void drawImage(NVGcontext*, const Vec4& v, int texture, float rounded = 0.F);
void dimBackground(NVGcontext*);
void drawRect(NVGcontext*, float x, float y, float w, float h, const NVGcolor& c, bool rounded = false);
void drawRect(NVGcontext*, const Vec4& v, const NVGcolor& c, bool rounded = false);
void drawRect(NVGcontext*, float x, float y, float w, float h, const NVGpaint& p, bool rounded = false);
void drawRect(NVGcontext*, const Vec4& v, const NVGpaint& p, bool rounded = false);
void drawRect(NVGcontext*, float x, float y, float w, float h, const NVGcolor& c, float rounding = 0.F);
void drawRect(NVGcontext*, const Vec4& v, const NVGcolor& c, float rounding = 0.F);
void drawRect(NVGcontext*, float x, float y, float w, float h, const NVGpaint& p, float rounding = 0.F);
void drawRect(NVGcontext*, const Vec4& v, const NVGpaint& p, float rounding = 0.F);
void drawRectOutline(NVGcontext*, const Theme*, float size, float x, float y, float w, float h);
void drawRectOutline(NVGcontext*, const Theme*, float size, const Vec4& v);

21
sphaira/include/ui/progress_box.hpp
View File

@@ -3,6 +3,7 @@
#include "widget.hpp"
#include "fs.hpp"
#include <functional>
#include <span>
namespace sphaira::ui {
@@ -12,6 +13,8 @@ using ProgressBoxDoneCallback = std::function<void(bool success)>;
struct ProgressBox final : Widget {
ProgressBox(
int image,
const std::string& action,
const std::string& title,
ProgressBoxCallback callback, ProgressBoxDoneCallback done = [](bool success){},
int cpuid = 1, int prio = 0x2C, int stack_size = 1024*1024
@@ -24,6 +27,9 @@ struct ProgressBox final : Widget {
auto SetTitle(const std::string& title) -> ProgressBox&;
auto NewTransfer(const std::string& transfer) -> ProgressBox&;
auto UpdateTransfer(s64 offset, s64 size) -> ProgressBox&;
// not const in order to avoid copy by using std::swap
auto SetImageData(std::vector<u8>& data) -> ProgressBox&;
auto SetImageDataConst(std::span<const u8> data) -> ProgressBox&;
void RequestExit();
auto ShouldExit() -> bool;
@@ -41,6 +47,9 @@ struct ProgressBox final : Widget {
};
}
private:
void FreeImage();
public:
struct ThreadData {
ProgressBox* pbox{};
@@ -52,12 +61,22 @@ private:
Mutex m_mutex{};
Thread m_thread{};
ThreadData m_thread_data{};
ProgressBoxDoneCallback m_done{};
// shared data start.
std::string m_action{};
std::string m_title{};
std::string m_transfer{};
s64 m_size{};
s64 m_offset{};
s64 m_last_offset{};
s64 m_speed{};
TimeStamp m_timestamp{};
std::vector<u8> m_image_data{};
// shared data end.
int m_image{};
bool m_own_image{};
};
// this is a helper function that does many things.

1
sphaira/include/ui/types.hpp
View File

@@ -226,7 +226,6 @@ struct ThemeMeta {
struct Theme {
ThemeMeta meta;
PLSR_BFSTM music;
ElementEntry elements[ThemeEntryID_MAX];
auto GetColour(ThemeEntryID id) const {

13
sphaira/include/web.hpp
View File

@@ -1,13 +0,0 @@
#pragma once
#include <switch.h>
#include <string>
namespace sphaira {
// if show_error = true, it will display popup error box on
// faliure. set this to false if you want to handle errors
// from the caller.
auto WebShow(const std::string& url, bool show_error = true) -> Result;
} // namespace sphaira

4
sphaira/include/yati/nx/nca.hpp
View File

@@ -175,7 +175,7 @@ struct Header {
u8 old_key_gen; // see KeyGenerationOld.
u8 kaek_index; // see KeyAreaEncryptionKeyIndex.
u64 size;
u64 title_id;
u64 program_id;
u32 context_id;
u32 sdk_version;
u8 key_gen; // see KeyGeneration.
@@ -215,4 +215,6 @@ Result DecryptKeak(const keys::Keys& keys, Header& header);
Result EncryptKeak(const keys::Keys& keys, Header& header, u8 key_generation);
Result VerifyFixedKey(const Header& header);
auto GetKeyGenStr(u8 key_gen) -> const char*;
} // namespace sphaira::nca

4
sphaira/include/yati/nx/ncm.hpp
View File

@@ -19,7 +19,7 @@ static_assert(sizeof(PackagedContentMeta) == 0x20);
struct ContentStorageRecord {
NcmContentMetaKey key;
u8 storage_id;
u8 storage_id; // NcmStorageId
u8 padding[0x7];
};
@@ -31,7 +31,9 @@ union ExtendedHeader {
NcmDataPatchMetaExtendedHeader data_patch;
};
auto GetAppId(u8 meta_type, u64 id) -> u64;
auto GetAppId(const NcmContentMetaKey& key) -> u64;
auto GetAppId(const PackagedContentMeta& meta) -> u64;
Result Delete(NcmContentStorage* cs, const NcmContentId *content_id);
Result Register(NcmContentStorage* cs, const NcmContentId *content_id, const NcmPlaceHolderId *placeholder_id);

265
sphaira/include/yati/nx/tik.h
View File

@@ -1,265 +0,0 @@
/*
* tik.h
*
* Copyright (c) 2020-2024, DarkMatterCore <pabloacurielz@gmail.com>.
*
* This file is part of nxdumptool (https://github.com/DarkMatterCore/nxdumptool).
*
* nxdumptool 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.
*
* nxdumptool 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 this program. If not, see <https://www.gnu.org/licenses/>.
*/
#pragma once
#ifndef __TIK_H__
#define __TIK_H__
#include "signature.h"
#ifdef __cplusplus
extern "C" {
#endif
#define SIGNED_TIK_MIN_SIZE sizeof(TikSigHmac160) /* Assuming no ESV1/ESV2 records are available. */
#define SIGNED_TIK_MAX_SIZE 0x400 /* Max ticket entry size in the ES ticket system savedata file. */
#define TIK_FORMAT_VERSION 2
#define GENERATE_TIK_STRUCT(sigtype, tiksize) \
typedef struct { \
SignatureBlock##sigtype sig_block; \
TikCommonBlock tik_common_block; \
u8 es_section_record_data[]; \
} TikSig##sigtype; \
NXDT_ASSERT(TikSig##sigtype, tiksize);
typedef enum {
TikTitleKeyType_Common = 0,
TikTitleKeyType_Personalized = 1,
TikTitleKeyType_Count = 2 ///< Total values supported by this enum.
} TikTitleKeyType;
typedef enum {
TikLicenseType_Permanent = 0,
TikLicenseType_Demo = 1,
TikLicenseType_Trial = 2,
TikLicenseType_Rental = 3,
TikLicenseType_Subscription = 4,
TikLicenseType_Service = 5,
TikLicenseType_Count = 6 ///< Total values supported by this enum.
} TikLicenseType;
typedef enum {
TikPropertyMask_None = 0,
TikPropertyMask_PreInstallation = BIT(0), ///< Determines if the title comes pre-installed on the device. Most likely unused -- a remnant from previous ticket formats.
TikPropertyMask_SharedTitle = BIT(1), ///< Determines if the title holds shared contents only. Most likely unused -- a remnant from previous ticket formats.
TikPropertyMask_AllContents = BIT(2), ///< Determines if the content index mask shall be bypassed. Most likely unused -- a remnant from previous ticket formats.
TikPropertyMask_DeviceLinkIndepedent = BIT(3), ///< Determines if the console should *not* connect to the Internet to verify if the title's being used by the primary console.
TikPropertyMask_Volatile = BIT(4), ///< Determines if the ticket copy inside ticket.bin is available after reboot. Can be encrypted.
TikPropertyMask_ELicenseRequired = BIT(5), ///< Determines if the console should connect to the Internet to perform license verification.
TikPropertyMask_Count = 6 ///< Total values supported by this enum.
} TikPropertyMask;
/// Placed after the ticket signature block.
typedef struct {
char issuer[0x40];
u8 titlekey_block[0x100];
u8 format_version; ///< Always matches TIK_FORMAT_VERSION.
u8 titlekey_type; ///< TikTitleKeyType.
u16 ticket_version;
u8 license_type; ///< TikLicenseType.
u8 key_generation; ///< NcaKeyGeneration.
u16 property_mask; ///< TikPropertyMask.
u8 reserved[0x8];
u64 ticket_id;
u64 device_id;
FsRightsId rights_id;
u32 account_id;
u32 sect_total_size;
u32 sect_hdr_offset;
u16 sect_hdr_count;
u16 sect_hdr_entry_size;
} TikCommonBlock;
NXDT_ASSERT(TikCommonBlock, 0x180);
/// ESV1/ESV2 section records are placed right after the ticket data. These aren't available in TikTitleKeyType_Common tickets.
/// These are only used if the sect_* fields from the common block are non-zero (other than 'sect_hdr_offset').
/// Each ESV2 section record is followed by a 'record_count' number of ESV1 records, each one of 'record_size' size.
typedef enum {
TikSectionType_None = 0,
TikSectionType_Permanent = 1,
TikSectionType_Subscription = 2,
TikSectionType_Content = 3,
TikSectionType_ContentConsumption = 4,
TikSectionType_AccessTitle = 5,
TikSectionType_LimitedResource = 6,
TikSectionType_Count = 7 ///< Total values supported by this enum.
} TikSectionType;
typedef struct {
u32 sect_offset;
u32 record_size;
u32 section_size;
u16 record_count;
u16 section_type; ///< TikSectionType.
} TikESV2SectionRecord;
/// Used with TikSectionType_Permanent.
typedef struct {
u8 ref_id[0x10];
u32 ref_id_attr;
} TikESV1PermanentRecord;
/// Used with TikSectionType_Subscription.
typedef struct {
u32 limit;
u8 ref_id[0x10];
u32 ref_id_attr;
} TikESV1SubscriptionRecord;
/// Used with TikSectionType_Content.
typedef struct {
u32 offset;
u8 access_mask[0x80];
} TikESV1ContentRecord;
/// Used with TikSectionType_ContentConsumption.
typedef struct {
u16 index;
u16 code;
u32 limit;
} TikESV1ContentConsumptionRecord;
/// Used with TikSectionType_AccessTitle.
typedef struct {
u64 access_title_id;
u64 access_title_mask;
} TikESV1AccessTitleRecord;
/// Used with TikSectionType_LimitedResource.
typedef struct {
u32 limit;
u8 ref_id[0x10];
u32 ref_id_attr;
} TikESV1LimitedResourceRecord;
/// All tickets generated below use a little endian sig_type field.
GENERATE_TIK_STRUCT(Rsa4096, 0x3C0); /// RSA-4096 signature.
GENERATE_TIK_STRUCT(Rsa2048, 0x2C0); /// RSA-2048 signature.
GENERATE_TIK_STRUCT(Ecc480, 0x200); /// ECC signature.
GENERATE_TIK_STRUCT(Hmac160, 0x1C0); /// HMAC signature.
/// Ticket type.
typedef enum {
TikType_None = 0,
TikType_SigRsa4096 = 1,
TikType_SigRsa2048 = 2,
TikType_SigEcc480 = 3,
TikType_SigHmac160 = 4,
TikType_Count = 5 ///< Total values supported by this enum.
} TikType;
/// Used to store ticket type, size and raw data, as well as titlekey data.
typedef struct {
u8 type; ///< TikType.
u64 size; ///< Raw ticket size.
u8 data[SIGNED_TIK_MAX_SIZE]; ///< Raw ticket data.
u8 key_generation; ///< NcaKeyGeneration.
u8 enc_titlekey[0x10]; ///< Titlekey with titlekek crypto (RSA-OAEP unwrapped if dealing with a TikTitleKeyType_Personalized ticket).
char enc_titlekey_str[0x21]; ///< Character string representation of enc_titlekey.
u8 dec_titlekey[0x10]; ///< Titlekey without titlekek crypto. Ready to use for NCA FS section decryption.
char dec_titlekey_str[0x21]; ///< Character string representation of dec_titlekey.
char rights_id_str[0x21]; ///< Character string representation of the rights ID from the ticket.
} Ticket;
/// Retrieves a ticket from either the ES ticket system savedata file (eMMC BIS System partition) or the secure Hash FS partition from an inserted gamecard.
/// Both the input rights ID and key generation values must have been retrieved from a NCA that depends on the desired ticket.
/// Titlekey is also RSA-OAEP unwrapped (if needed) and titlekek-decrypted right away.
bool tikRetrieveTicketByRightsId(Ticket *dst, const FsRightsId *id, u8 key_generation, bool use_gamecard);
/// Converts a TikTitleKeyType_Personalized ticket into a TikTitleKeyType_Common ticket and optionally generates a raw certificate chain for the new signature issuer.
/// Bear in mind the 'size' member from the Ticket parameter will be updated by this function to remove any possible references to ESV1/ESV2 records.
/// If both 'out_raw_cert_chain' and 'out_raw_cert_chain_size' pointers are provided, raw certificate chain data will be saved to them.
/// certGenerateRawCertificateChainBySignatureIssuer() is used internally, so the output buffer must be freed by the user.
bool tikConvertPersonalizedTicketToCommonTicket(Ticket *tik, u8 **out_raw_cert_chain, u64 *out_raw_cert_chain_size);
/// Helper inline functions for signed ticket blobs.
NX_INLINE TikCommonBlock *tikGetCommonBlockFromSignedTicketBlob(void *buf)
{
return (TikCommonBlock*)signatureGetPayloadFromSignedBlob(buf, false);
}
NX_INLINE u64 tikGetSectionRecordsSizeFromSignedTicketBlob(void *buf)
{
TikCommonBlock *tik_common_block = tikGetCommonBlockFromSignedTicketBlob(buf);
if (!tik_common_block) return 0;
u64 offset = sizeof(TikCommonBlock), out_size = 0;
for(u32 i = 0; i < tik_common_block->sect_hdr_count; i++)
{
TikESV2SectionRecord *rec = (TikESV2SectionRecord*)((u8*)tik_common_block + offset);
offset += (sizeof(TikESV2SectionRecord) + ((u64)rec->record_count * (u64)rec->record_size));
out_size += offset;
}
return out_size;
}
NX_INLINE bool tikIsValidSignedTicketBlob(void *buf)
{
u64 ticket_size = (signatureGetBlockSizeFromSignedBlob(buf, false) + sizeof(TikCommonBlock));
return (ticket_size > sizeof(TikCommonBlock) && (ticket_size + tikGetSectionRecordsSizeFromSignedTicketBlob(buf)) <= SIGNED_TIK_MAX_SIZE);
}
NX_INLINE u64 tikGetSignedTicketBlobSize(void *buf)
{
return (tikIsValidSignedTicketBlob(buf) ? (signatureGetBlockSizeFromSignedBlob(buf, false) + sizeof(TikCommonBlock) + tikGetSectionRecordsSizeFromSignedTicketBlob(buf)) : 0);
}
NX_INLINE u64 tikGetSignedTicketBlobHashAreaSize(void *buf)
{
return (tikIsValidSignedTicketBlob(buf) ? (sizeof(TikCommonBlock) + tikGetSectionRecordsSizeFromSignedTicketBlob(buf)) : 0);
}
/// Helper inline functions for Ticket elements.
NX_INLINE bool tikIsValidTicket(Ticket *tik)
{
return (tik && tik->type > TikType_None && tik->type < TikType_Count && tik->size >= SIGNED_TIK_MIN_SIZE && tik->size <= SIGNED_TIK_MAX_SIZE && tikIsValidSignedTicketBlob(tik->data));
}
NX_INLINE TikCommonBlock *tikGetCommonBlockFromTicket(Ticket *tik)
{
return (tikIsValidTicket(tik) ? tikGetCommonBlockFromSignedTicketBlob(tik->data) : NULL);
}
NX_INLINE bool tikIsPersonalizedTicket(Ticket *tik)
{
TikCommonBlock *tik_common_block = tikGetCommonBlockFromTicket(tik);
return (tik_common_block ? (tik_common_block->titlekey_type == TikTitleKeyType_Personalized) : false);
}
NX_INLINE u64 tikGetHashAreaSizeFromTicket(Ticket *tik)
{
return (tikIsValidTicket(tik) ? tikGetSignedTicketBlobHashAreaSize(tik->data) : 0);
}
#ifdef __cplusplus
}
#endif
#endif /* __TIK_H__ */

48
sphaira/include/yati/source/usb.hpp
View File

@@ -2,6 +2,10 @@
#include "base.hpp"
#include "fs.hpp"
#include <vector>
#include <string>
#include <new>
#include <switch.h>
namespace sphaira::yati::source {
@@ -21,11 +25,39 @@ struct Usb final : Base {
~Usb();
Result Read(void* buf, s64 off, s64 size, u64* bytes_read) override;
Result Finished() const;
Result Finished();
Result Init();
Result WaitForConnection(u64 timeout, u32& speed, u32& count);
Result GetFileInfo(std::string& name_out, u64& size_out);
Result IsUsbConnected(u64 timeout) const;
Result WaitForConnection(u64 timeout, std::vector<std::string>& out_names);
void SetFileNameForTranfser(const std::string& name);
public:
// custom allocator for std::vector that respects alignment.
// https://en.cppreference.com/w/cpp/named_req/Allocator
template <typename T, std::size_t Align>
struct CustomVectorAllocator {
public:
// https://en.cppreference.com/w/cpp/memory/new/operator_new
auto allocate(std::size_t n) -> T* {
return new(align) T[n];
}
// https://en.cppreference.com/w/cpp/memory/new/operator_delete
auto deallocate(T* p, std::size_t n) noexcept -> void {
::operator delete[] (p, n, align);
}
private:
static constexpr inline std::align_val_t align{Align};
};
template <typename T>
struct PageAllocator : CustomVectorAllocator<T, 0x1000> {
using value_type = T; // used by std::vector
};
using PageAlignedVector = std::vector<u8, PageAllocator<u8>>;
private:
enum UsbSessionEndpoint {
@@ -33,20 +65,24 @@ private:
UsbSessionEndpoint_Out = 1,
};
Result SendCommand(s64 off, s64 size) const;
Result InternalRead(void* buf, s64 off, s64 size) const;
Result SendCmdHeader(u32 cmdId, size_t dataSize);
Result SendFileRangeCmd(u64 offset, u64 size);
bool GetConfigured() const;
Event *GetCompletionEvent(UsbSessionEndpoint ep) const;
Result WaitTransferCompletion(UsbSessionEndpoint ep, u64 timeout) const;
Result TransferAsync(UsbSessionEndpoint ep, void *buffer, u32 size, u32 *out_urb_id) const;
Result GetTransferResult(UsbSessionEndpoint ep, u32 urb_id, u32 *out_requested_size, u32 *out_transferred_size) const;
Result TransferPacketImpl(bool read, void *page, u32 size, u32 *out_size_transferred, u64 timeout) const;
Result TransferAll(bool read, void *data, u32 size, u64 timeout);
private:
UsbDsInterface* m_interface{};
UsbDsEndpoint* m_endpoints[2]{};
u64 m_transfer_timeout{};
// aligned buffer that transfer data is copied to and from.
// a vector is used to avoid multiple alloc within the transfer loop.
PageAlignedVector m_aligned{};
std::string m_transfer_file_name{};
};
} // namespace sphaira::yati::source

31
sphaira/include/yati/yati.hpp
View File

@@ -10,8 +10,10 @@
#include "fs.hpp"
#include "source/base.hpp"
#include "container/base.hpp"
#include "nx/ncm.hpp"
#include "ui/progress_box.hpp"
#include <memory>
#include <optional>
namespace sphaira::yati {
@@ -69,6 +71,10 @@ enum : Result {
struct Config {
bool sd_card_install{};
// sets the performance mode to FastLoad which boosts the CPU clock
// and lowers the GPU clock.
bool boost_mode{};
// enables downgrading patch / data patch (dlc) version.
bool allow_downgrade{};
@@ -112,10 +118,25 @@ struct Config {
bool lower_system_version{};
};
Result InstallFromFile(ui::ProgressBox* pbox, FsFileSystem* fs, const fs::FsPath& path);
Result InstallFromStdioFile(ui::ProgressBox* pbox, const fs::FsPath& path);
Result InstallFromSource(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const fs::FsPath& path);
Result InstallFromContainer(ui::ProgressBox* pbox, std::shared_ptr<container::Base> container);
Result InstallFromCollections(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const container::Collections& collections);
// overridable options, set to avoid
struct ConfigOverride {
std::optional<bool> sd_card_install{};
std::optional<bool> skip_nca_hash_verify{};
std::optional<bool> skip_rsa_header_fixed_key_verify{};
std::optional<bool> skip_rsa_npdm_fixed_key_verify{};
std::optional<bool> ignore_distribution_bit{};
std::optional<bool> convert_to_standard_crypto{};
std::optional<bool> lower_master_key{};
std::optional<bool> lower_system_version{};
};
Result InstallFromFile(ui::ProgressBox* pbox, FsFileSystem* fs, const fs::FsPath& path, const ConfigOverride& override = {});
Result InstallFromStdioFile(ui::ProgressBox* pbox, const fs::FsPath& path, const ConfigOverride& override = {});
Result InstallFromSource(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const fs::FsPath& path, const ConfigOverride& override = {});
Result InstallFromContainer(ui::ProgressBox* pbox, std::shared_ptr<container::Base> container, const ConfigOverride& override = {});
Result InstallFromCollections(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const container::Collections& collections, const ConfigOverride& override = {});
Result ParseCnmtNca(const fs::FsPath& path, u64 program_id, ncm::PackagedContentMeta& header, std::vector<u8>& extended_header, std::vector<NcmPackagedContentInfo>& infos);
Result ParseControlNca(const fs::FsPath& path, u64 program_id, void* nacp_out = nullptr, s64 nacp_size = 0, std::vector<u8>* icon_out = nullptr);
} // namespace sphaira::yati

260
sphaira/source/app.cpp
View File

@@ -1,7 +1,17 @@
#include "ui/menus/main_menu.hpp"
#include "ui/error_box.hpp"
#include "ui/option_box.hpp"
#include "ui/bubbles.hpp"
#include "ui/sidebar.hpp"
#include "ui/popup_list.hpp"
#include "ui/option_box.hpp"
#include "ui/progress_box.hpp"
#include "ui/error_box.hpp"
#include "ui/menus/main_menu.hpp"
#include "ui/menus/themezer.hpp"
#include "ui/menus/ghdl.hpp"
#include "ui/menus/usb_menu.hpp"
#include "ui/menus/ftp_menu.hpp"
#include "ui/menus/gc_menu.hpp"
#include "app.hpp"
#include "log.hpp"
@@ -34,8 +44,33 @@ extern "C" {
namespace sphaira {
namespace {
constexpr fs::FsPath DEFAULT_MUSIC_PATH = "/config/sphaira/themes/default_music.bfstm";
constexpr const char* DEFAULT_MUSIC_URL = "https://files.catbox.moe/1ovji1.bfstm";
// constexpr const char* DEFAULT_MUSIC_URL = "https://raw.githubusercontent.com/ITotalJustice/sphaira/refs/heads/master/assets/default_music.bfstm";
void download_default_music() {
App::Push(std::make_shared<ui::ProgressBox>(0, "Downloading "_i18n, "default_music.bfstm", [](auto pbox){
const auto result = curl::Api().ToFile(
curl::Url{DEFAULT_MUSIC_URL},
curl::Path{DEFAULT_MUSIC_PATH},
curl::OnProgress{pbox->OnDownloadProgressCallback()}
);
return result.success;
}, [](bool success){
if (success) {
App::Notify("Downloaded "_i18n + "default_music.bfstm");
App::SetTheme(App::GetThemeIndex());
} else {
App::Push(std::make_shared<ui::ErrorBox>(
"Failed to download default_music.bfstm, please try again"_i18n
));
}
}));
}
struct ThemeData {
fs::FsPath music_path{"/config/sphaira/themes/default_music.bfstm"};
fs::FsPath music_path{DEFAULT_MUSIC_PATH};
std::string elements[ThemeEntryID_MAX]{};
};
@@ -1104,7 +1139,6 @@ void App::CloseTheme() {
if (m_sound_ids[SoundEffect_Music]) {
plsrPlayerFree(m_sound_ids[SoundEffect_Music]);
m_sound_ids[SoundEffect_Music] = nullptr;
plsrBFSTMClose(&m_theme.music);
}
for (auto& e : m_theme.elements) {
@@ -1134,10 +1168,12 @@ void App::LoadTheme(const ThemeMeta& meta) {
// load music
if (!theme_data.music_path.empty()) {
if (R_SUCCEEDED(plsrBFSTMOpen(theme_data.music_path, &m_theme.music))) {
if (R_SUCCEEDED(plsrPlayerLoadStream(&m_theme.music, &m_sound_ids[SoundEffect_Music]))) {
PLSR_BFSTM music_stream;
if (R_SUCCEEDED(plsrBFSTMOpen(theme_data.music_path, &music_stream))) {
if (R_SUCCEEDED(plsrPlayerLoadStream(&music_stream, &m_sound_ids[SoundEffect_Music]))) {
PlaySoundEffect(SoundEffect_Music);
}
plsrBFSTMClose(&music_stream);
}
}
}
@@ -1300,16 +1336,21 @@ App::App(const char* argv0) {
if (R_SUCCEEDED(plsrBFSAROpen("qlaunch:/sound/qlaunch.bfsar", &qlaunch_bfsar))) {
ON_SCOPE_EXIT(plsrBFSARClose(&qlaunch_bfsar));
plsrPlayerLoadSoundByName(&qlaunch_bfsar, "SeGameIconFocus", &m_sound_ids[SoundEffect_Focus]);
plsrPlayerLoadSoundByName(&qlaunch_bfsar, "SeGameIconScroll", &m_sound_ids[SoundEffect_Scroll]);
plsrPlayerLoadSoundByName(&qlaunch_bfsar, "SeGameIconLimit", &m_sound_ids[SoundEffect_Limit]);
plsrPlayerLoadSoundByName(&qlaunch_bfsar, "SeStartupMenu_game", &m_sound_ids[SoundEffect_Startup]);
plsrPlayerLoadSoundByName(&qlaunch_bfsar, "SeGameIconAdd", &m_sound_ids[SoundEffect_Install]);
plsrPlayerLoadSoundByName(&qlaunch_bfsar, "SeInsertError", &m_sound_ids[SoundEffect_Error]);
const auto load_sound = [&](const char* name, u32 id) {
if (R_FAILED(plsrPlayerLoadSoundByName(&qlaunch_bfsar, name, &m_sound_ids[id]))) {
log_write("[PLSR] failed to load sound effect: %s\n", name);
}
};
load_sound("SeGameIconFocus", SoundEffect_Focus);
load_sound("SeGameIconScroll", SoundEffect_Scroll);
load_sound("SeGameIconLimit", SoundEffect_Limit);
load_sound("StartupMenu_Game", SoundEffect_Startup);
load_sound("SeGameIconAdd", SoundEffect_Install);
load_sound("SeInsertError", SoundEffect_Error);
plsrPlayerSetVolume(m_sound_ids[SoundEffect_Limit], 2.0f);
plsrPlayerSetVolume(m_sound_ids[SoundEffect_Focus], 0.5f);
PlaySoundEffect(SoundEffect_Startup);
}
} else {
log_write("failed to mount romfs 0x0100000000001000\n");
@@ -1374,15 +1415,6 @@ App::App(const char* argv0) {
const long old_launch_count = ini_getl(GetExePath(), "launch_count", 0, App::PLAYLOG_PATH);
ini_putl(GetExePath(), "launch_count", old_launch_count + 1, App::PLAYLOG_PATH);
s64 sd_free_space;
if (R_SUCCEEDED(fs.GetFreeSpace("/", &sd_free_space))) {
log_write("sd_free_space: %zd\n", sd_free_space);
}
s64 sd_total_space;
if (R_SUCCEEDED(fs.GetTotalSpace("/", &sd_total_space))) {
log_write("sd_total_space: %zd\n", sd_total_space);
}
// load default image
if (R_SUCCEEDED(romfsInit())) {
ON_SCOPE_EXIT(romfsExit());
@@ -1437,6 +1469,190 @@ void App::PlaySoundEffect(SoundEffect effect) {
plsrPlayerPlay(id);
}
void App::DisplayThemeOptions(bool left_side) {
ui::SidebarEntryArray::Items theme_items{};
const auto theme_meta = App::GetThemeMetaList();
for (auto& p : theme_meta) {
theme_items.emplace_back(p.name);
}
auto options = std::make_shared<ui::Sidebar>("Theme Options"_i18n, left_side ? ui::Sidebar::Side::LEFT : ui::Sidebar::Side::RIGHT);
ON_SCOPE_EXIT(App::Push(options));
options->Add(std::make_shared<ui::SidebarEntryArray>("Select Theme"_i18n, theme_items, [](s64& index_out){
App::SetTheme(index_out);
}, App::GetThemeIndex()));
options->Add(std::make_shared<ui::SidebarEntryBool>("Music"_i18n, App::GetThemeMusicEnable(), [](bool& enable){
App::SetThemeMusicEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("12 Hour Time"_i18n, App::Get12HourTimeEnable(), [](bool& enable){
App::Set12HourTimeEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryCallback>("Download Default Music"_i18n, [](){
// check if we already have music
if (fs::FileExists(DEFAULT_MUSIC_PATH)) {
App::Push(std::make_shared<ui::OptionBox>(
"Overwrite current default music?"_i18n,
"No"_i18n, "Yes"_i18n, 0, [](auto op_index){
if (op_index && *op_index) {
download_default_music();
}
}
));
} else {
download_default_music();
}
}));
}
void App::DisplayNetworkOptions(bool left_side) {
}
void App::DisplayMiscOptions(bool left_side) {
auto options = std::make_shared<ui::Sidebar>("Misc Options"_i18n, left_side ? ui::Sidebar::Side::LEFT : ui::Sidebar::Side::RIGHT);
ON_SCOPE_EXIT(App::Push(options));
options->Add(std::make_shared<ui::SidebarEntryCallback>("Themezer"_i18n, [](){
App::Push(std::make_shared<ui::menu::themezer::Menu>());
}));
options->Add(std::make_shared<ui::SidebarEntryCallback>("GitHub"_i18n, [](){
App::Push(std::make_shared<ui::menu::gh::Menu>());
}));
if (App::GetApp()->m_install.Get()) {
if (App::GetFtpEnable()) {
options->Add(std::make_shared<ui::SidebarEntryCallback>("Ftp Install"_i18n, [](){
App::Push(std::make_shared<ui::menu::ftp::Menu>());
}));
}
options->Add(std::make_shared<ui::SidebarEntryCallback>("Usb Install"_i18n, [](){
App::Push(std::make_shared<ui::menu::usb::Menu>());
}));
options->Add(std::make_shared<ui::SidebarEntryCallback>("GameCard Install"_i18n, [](){
App::Push(std::make_shared<ui::menu::gc::Menu>());
}));
}
}
void App::DisplayAdvancedOptions(bool left_side) {
auto options = std::make_shared<ui::Sidebar>("Advanced Options"_i18n, left_side ? ui::Sidebar::Side::LEFT : ui::Sidebar::Side::RIGHT);
ON_SCOPE_EXIT(App::Push(options));
ui::SidebarEntryArray::Items text_scroll_speed_items;
text_scroll_speed_items.push_back("Slow"_i18n);
text_scroll_speed_items.push_back("Normal"_i18n);
text_scroll_speed_items.push_back("Fast"_i18n);
options->Add(std::make_shared<ui::SidebarEntryBool>("Logging"_i18n, App::GetLogEnable(), [](bool& enable){
App::SetLogEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Replace hbmenu on exit"_i18n, App::GetReplaceHbmenuEnable(), [](bool& enable){
App::SetReplaceHbmenuEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryArray>("Text scroll speed"_i18n, text_scroll_speed_items, [](s64& index_out){
App::SetTextScrollSpeed(index_out);
}, (s64)App::GetTextScrollSpeed()));
options->Add(std::make_shared<ui::SidebarEntryCallback>("Install options"_i18n, [left_side](){
App::DisplayInstallOptions(left_side);
}));
}
void App::DisplayInstallOptions(bool left_side) {
auto options = std::make_shared<ui::Sidebar>("Install Options"_i18n, left_side ? ui::Sidebar::Side::LEFT : ui::Sidebar::Side::RIGHT);
ON_SCOPE_EXIT(App::Push(options));
ui::SidebarEntryArray::Items install_items;
install_items.push_back("System memory"_i18n);
install_items.push_back("microSD card"_i18n);
options->Add(std::make_shared<ui::SidebarEntryBool>("Enable"_i18n, App::GetApp()->m_install.Get(), [](bool& enable){
App::GetApp()->m_install.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Show install warning"_i18n, App::GetApp()->m_install_prompt.Get(), [](bool& enable){
App::GetApp()->m_install_prompt.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryArray>("Install location"_i18n, install_items, [](s64& index_out){
App::SetInstallSdEnable(index_out);
}, (s64)App::GetInstallSdEnable()));
options->Add(std::make_shared<ui::SidebarEntryBool>("Boost CPU clock"_i18n, App::GetApp()->m_boost_mode.Get(), [](bool& enable){
App::GetApp()->m_boost_mode.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Allow downgrade"_i18n, App::GetApp()->m_allow_downgrade.Get(), [](bool& enable){
App::GetApp()->m_allow_downgrade.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip if already installed"_i18n, App::GetApp()->m_skip_if_already_installed.Get(), [](bool& enable){
App::GetApp()->m_skip_if_already_installed.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Ticket only"_i18n, App::GetApp()->m_ticket_only.Get(), [](bool& enable){
App::GetApp()->m_ticket_only.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip base"_i18n, App::GetApp()->m_skip_base.Get(), [](bool& enable){
App::GetApp()->m_skip_base.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip patch"_i18n, App::GetApp()->m_skip_patch.Get(), [](bool& enable){
App::GetApp()->m_skip_patch.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip dlc"_i18n, App::GetApp()->m_skip_addon.Get(), [](bool& enable){
App::GetApp()->m_skip_addon.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip data patch"_i18n, App::GetApp()->m_skip_data_patch.Get(), [](bool& enable){
App::GetApp()->m_skip_data_patch.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip ticket"_i18n, App::GetApp()->m_skip_ticket.Get(), [](bool& enable){
App::GetApp()->m_skip_ticket.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("skip NCA hash verify"_i18n, App::GetApp()->m_skip_nca_hash_verify.Get(), [](bool& enable){
App::GetApp()->m_skip_nca_hash_verify.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip RSA header verify"_i18n, App::GetApp()->m_skip_rsa_header_fixed_key_verify.Get(), [](bool& enable){
App::GetApp()->m_skip_rsa_header_fixed_key_verify.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Skip RSA NPDM verify"_i18n, App::GetApp()->m_skip_rsa_npdm_fixed_key_verify.Get(), [](bool& enable){
App::GetApp()->m_skip_rsa_npdm_fixed_key_verify.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Ignore distribution bit"_i18n, App::GetApp()->m_ignore_distribution_bit.Get(), [](bool& enable){
App::GetApp()->m_ignore_distribution_bit.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Convert to standard crypto"_i18n, App::GetApp()->m_convert_to_standard_crypto.Get(), [](bool& enable){
App::GetApp()->m_convert_to_standard_crypto.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Lower master key"_i18n, App::GetApp()->m_lower_master_key.Get(), [](bool& enable){
App::GetApp()->m_lower_master_key.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<ui::SidebarEntryBool>("Lower system version"_i18n, App::GetApp()->m_lower_system_version.Get(), [](bool& enable){
App::GetApp()->m_lower_system_version.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
}
App::~App() {
log_write("starting to exit\n");

4
sphaira/source/owo.cpp
View File

@@ -715,7 +715,7 @@ void write_nca_header_encypted(nca::Header& nca_header, u64 tid, const keys::Key
nca_header.magic = NCA3_MAGIC;
nca_header.distribution_type = nca::DistributionType_System;
nca_header.content_type = type;
nca_header.title_id = tid;
nca_header.program_id = tid;
nca_header.sdk_version = 0x000C1100;
nca_header.size = buf.tell();
@@ -1005,7 +1005,7 @@ auto install_forwarder(ui::ProgressBox* pbox, OwoConfig& config, NcmStorageId st
}
auto install_forwarder(OwoConfig& config, NcmStorageId storage_id) -> Result {
App::Push(std::make_shared<ui::ProgressBox>("Installing Forwarder"_i18n, [config, storage_id](auto pbox) mutable -> bool {
App::Push(std::make_shared<ui::ProgressBox>(0, "Installing Forwarder"_i18n, config.name, [config, storage_id](auto pbox) mutable -> bool {
return R_SUCCEEDED(install_forwarder(pbox, config, storage_id));
}));
R_SUCCEED();

1124
sphaira/source/ui/error_box.cpp
View File

File diff suppressed because it is too large Load Diff

33
sphaira/source/ui/list.cpp
View File

@@ -34,8 +34,35 @@ auto List::ClampY(float y, s64 count) const -> float {
return y;
}
void List::OnUpdate(Controller* controller, TouchInfo* touch, s64 count, TouchCallback callback) {
if (touch->is_clicked && touch->in_range(GetPos())) {
void List::OnUpdate(Controller* controller, TouchInfo* touch, s64 index, s64 count, TouchCallback callback) {
const auto page_up_button = m_row == 1 ? Button::DPAD_LEFT : Button::L2;
const auto page_down_button = m_row == 1 ? Button::DPAD_RIGHT : Button::R2;
if (controller->GotDown(Button::DOWN)) {
if (ScrollDown(index, m_row, count)) {
callback(false, index);
}
} else if (controller->GotDown(Button::UP)) {
if (ScrollUp(index, m_row, count)) {
callback(false, index);
}
} else if (controller->GotDown(page_down_button)) {
if (ScrollDown(index, m_page, count)) {
callback(false, index);
}
} else if (controller->GotDown(page_up_button)) {
if (ScrollUp(index, m_page, count)) {
callback(false, index);
}
} else if (m_row > 1 && controller->GotDown(Button::RIGHT)) {
if (count && index < (count - 1) && (index + 1) % m_row != 0) {
callback(false, index + 1);
}
} else if (m_row > 1 && controller->GotDown(Button::LEFT)) {
if (count && index != 0 && (index % m_row) != 0) {
callback(false, index - 1);
}
} else if (touch->is_clicked && touch->in_range(GetPos())) {
auto v = m_v;
v.y -= ClampY(m_yoff + m_y_prog, count);
@@ -63,7 +90,7 @@ void List::OnUpdate(Controller* controller, TouchInfo* touch, s64 count, TouchCa
vv.h = std::min(v.y + v.h, m_pos.y + m_pos.h) - v.y;
if (touch->in_range(vv)) {
callback(i);
callback(true, i);
return;
}
}

89
sphaira/source/ui/menus/appstore.cpp
View File

@@ -236,18 +236,15 @@ void DrawIcon(NVGcontext* vg, const LazyImage& l, const LazyImage& d, float x, f
bool crop = false;
if (iw < w || ih < h) {
rounded_image = false;
gfx::drawRect(vg, x, y, w, h, nvgRGB(i.first_pixel[0], i.first_pixel[1], i.first_pixel[2]), rounded);
gfx::drawRect(vg, x, y, w, h, nvgRGB(i.first_pixel[0], i.first_pixel[1], i.first_pixel[2]), rounded ? 15 : 0);
}
if (iw > w || ih > h) {
crop = true;
nvgSave(vg);
nvgIntersectScissor(vg, x, y, w, h);
}
if (rounded_image) {
gfx::drawImageRounded(vg, ix, iy, iw, ih, i.image);
} else {
gfx::drawImage(vg, ix, iy, iw, ih, i.image);
}
gfx::drawImage(vg, ix, iy, iw, ih, i.image, rounded_image ? 15 : 0);
if (crop) {
nvgRestore(vg);
}
@@ -593,6 +590,14 @@ auto InstallApp(ProgressBox* pbox, const Entry& entry) -> bool {
return true;
}
// case-insensitive version of str.find()
auto FindCaseInsensitive(std::string_view base, std::string_view term) -> bool {
const auto it = std::search(base.cbegin(), base.cend(), term.cbegin(), term.cend(), [](char a, char b){
return std::toupper(a) == std::toupper(b);
});
return it != base.cend();
}
} // namespace
EntryMenu::EntryMenu(Entry& entry, const LazyImage& default_icon, Menu& menu)
@@ -769,7 +774,7 @@ void EntryMenu::UpdateOptions() {
};
const auto install = [this](){
App::Push(std::make_shared<ProgressBox>("Installing "_i18n + m_entry.title, [this](auto pbox){
App::Push(std::make_shared<ProgressBox>(m_entry.image.image, "Downloading "_i18n, m_entry.title, [this](auto pbox){
return InstallApp(pbox, m_entry);
}, [this](bool success){
if (success) {
@@ -782,7 +787,7 @@ void EntryMenu::UpdateOptions() {
};
const auto uninstall = [this](){
App::Push(std::make_shared<ProgressBox>("Uninstalling "_i18n + m_entry.title, [this](auto pbox){
App::Push(std::make_shared<ProgressBox>(m_entry.image.image, "Uninstalling "_i18n, m_entry.title, [this](auto pbox){
return UninstallApp(pbox, m_entry);
}, [this](bool success){
if (success) {
@@ -841,12 +846,6 @@ void EntryMenu::SetIndex(s64 index) {
}
}
auto toLower(const std::string& str) -> std::string {
std::string lower;
std::transform(str.cbegin(), str.cend(), std::back_inserter(lower), tolower);
return lower;
}
Menu::Menu(const std::vector<NroEntry>& nro_entries) : MenuBase{"AppStore"_i18n}, m_nro_entries{nro_entries} {
fs::FsNativeSd fs;
fs.CreateDirectoryRecursively("/switch/sphaira/cache/appstore/icons");
@@ -854,48 +853,6 @@ Menu::Menu(const std::vector<NroEntry>& nro_entries) : MenuBase{"AppStore"_i18n}
fs.CreateDirectoryRecursively("/switch/sphaira/cache/appstore/screens");
this->SetActions(
std::make_pair(Button::RIGHT, Action{[this](){
if (m_entries_current.empty()) {
return;
}
if (m_index < (m_entries_current.size() - 1) && (m_index + 1) % 3 != 0) {
SetIndex(m_index + 1);
App::PlaySoundEffect(SoundEffect_Scroll);
log_write("moved right\n");
}
}}),
std::make_pair(Button::LEFT, Action{[this](){
if (m_entries_current.empty()) {
return;
}
if (m_index != 0 && (m_index % 3) != 0) {
SetIndex(m_index - 1);
App::PlaySoundEffect(SoundEffect_Scroll);
log_write("moved left\n");
}
}}),
std::make_pair(Button::DOWN, Action{[this](){
if (m_list->ScrollDown(m_index, 3, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
if (m_list->ScrollUp(m_index, 3, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::R2, Action{[this](){
if (m_list->ScrollDown(m_index, 9, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::L2, Action{[this](){
if (m_list->ScrollUp(m_index, 9, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::A, Action{"Info"_i18n, [this](){
if (m_entries_current.empty()) {
// log_write("pushing A when empty: size: %zu count: %zu\n", repo_json.size(), m_entries_current.size());
@@ -983,8 +940,8 @@ Menu::~Menu() {
void Menu::Update(Controller* controller, TouchInfo* touch) {
MenuBase::Update(controller, touch);
m_list->OnUpdate(controller, touch, m_entries_current.size(), [this](auto i) {
if (m_index == i) {
m_list->OnUpdate(controller, touch, m_index, m_entries_current.size(), [this](bool touch, auto i) {
if (touch && m_index == i) {
FireAction(Button::A);
} else {
App::PlaySoundEffect(SoundEffect_Focus);
@@ -1096,16 +1053,16 @@ void Menu::Draw(NVGcontext* vg, Theme* theme) {
float i_size = 22;
switch (e.status) {
case EntryStatus::Get:
gfx::drawImageRounded(vg, x + w - 30.f, y + 110, i_size, i_size, m_get.image);
gfx::drawImage(vg, x + w - 30.f, y + 110, i_size, i_size, m_get.image, 15);
break;
case EntryStatus::Installed:
gfx::drawImageRounded(vg, x + w - 30.f, y + 110, i_size, i_size, m_installed.image);
gfx::drawImage(vg, x + w - 30.f, y + 110, i_size, i_size, m_installed.image, 15);
break;
case EntryStatus::Local:
gfx::drawImageRounded(vg, x + w - 30.f, y + 110, i_size, i_size, m_local.image);
gfx::drawImage(vg, x + w - 30.f, y + 110, i_size, i_size, m_local.image, 15);
break;
case EntryStatus::Update:
gfx::drawImageRounded(vg, x + w - 30.f, y + 110, i_size, i_size, m_update.image);
gfx::drawImage(vg, x + w - 30.f, y + 110, i_size, i_size, m_update.image, 15);
break;
}
});
@@ -1338,12 +1295,11 @@ void Menu::SetSearch(const std::string& term) {
m_search_term = term;
m_entries_index_search.clear();
const auto query = toLower(m_search_term);
const auto npos = std::string::npos;
const auto query = m_search_term;
for (u64 i = 0; i < m_entries.size(); i++) {
const auto& e = m_entries[i];
if (toLower(e.title).find(query) != npos || toLower(e.author).find(query) != npos || toLower(e.details).find(query) != npos || toLower(e.description).find(query) != npos) {
if (FindCaseInsensitive(e.title, query) || FindCaseInsensitive(e.author, query) || FindCaseInsensitive(e.description, query)) {
m_entries_index_search.emplace_back(i);
}
}
@@ -1372,10 +1328,11 @@ void Menu::SetAuthor() {
m_author_term = m_entries[m_entries_current[m_index]].author;
m_entries_index_author.clear();
const auto query = m_author_term;
for (u64 i = 0; i < m_entries.size(); i++) {
const auto& e = m_entries[i];
if (e.author.find(m_author_term) != std::string::npos) {
if (FindCaseInsensitive(e.author, query)) {
m_entries_index_author.emplace_back(i);
}
}

33
sphaira/source/ui/menus/filebrowser.cpp
View File

@@ -279,26 +279,6 @@ Menu::Menu(const std::vector<NroEntry>& nro_entries) : MenuBase{"FileBrowser"_i1
m_selected_count--;
}
}}),
std::make_pair(Button::DOWN, Action{[this](){
if (m_list->ScrollDown(m_index, 1, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
if (m_list->ScrollUp(m_index, 1, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::DPAD_RIGHT, Action{[this](){
if (m_list->ScrollDown(m_index, 8, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::DPAD_LEFT, Action{[this](){
if (m_list->ScrollUp(m_index, 8, m_entries_current.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::A, Action{"Open"_i18n, [this](){
if (m_entries_current.empty()) {
return;
@@ -626,8 +606,8 @@ Menu::~Menu() {
void Menu::Update(Controller* controller, TouchInfo* touch) {
MenuBase::Update(controller, touch);
m_list->OnUpdate(controller, touch, m_entries_current.size(), [this](auto i) {
if (m_index == i) {
m_list->OnUpdate(controller, touch, m_index, m_entries_current.size(), [this](bool touch, auto i) {
if (touch && m_index == i) {
FireAction(Button::A);
} else {
App::PlaySoundEffect(SoundEffect_Focus);
@@ -802,7 +782,7 @@ void Menu::InstallForwarder() {
if (op_index) {
const auto assoc = assoc_list[*op_index];
log_write("pushing it\n");
App::Push(std::make_shared<ProgressBox>("Installing Forwarder"_i18n, [assoc, this](auto pbox) -> bool {
App::Push(std::make_shared<ProgressBox>(0, "Installing Forwarder"_i18n, GetEntry().name, [assoc, this](auto pbox) -> bool {
log_write("inside callback\n");
NroEntry nro{};
@@ -829,6 +809,7 @@ void Menu::InstallForwarder() {
// config.name = file_name;
config.nacp = nro.nacp;
config.icon = GetRomIcon(m_fs.get(), pbox, file_name, db_indexs, nro);
pbox->SetImageDataConst(config.icon);
return R_SUCCEEDED(App::Install(pbox, config));
}));
@@ -849,7 +830,7 @@ void Menu::InstallFiles(const std::vector<FileEntry>& targets) {
if (op_index && *op_index) {
App::PopToMenu();
App::Push(std::make_shared<ui::ProgressBox>("Installing App"_i18n, [this, targets](auto pbox) mutable -> bool {
App::Push(std::make_shared<ui::ProgressBox>(0, "Installing "_i18n, "", [this, targets](auto pbox) mutable -> bool {
for (auto& e : targets) {
const auto rc = yati::InstallFromFile(pbox, &m_fs->m_fs, GetNewPath(e));
if (rc == yati::Result_Cancelled) {
@@ -1226,7 +1207,7 @@ void Menu::OnDeleteCallback() {
Scan(m_path);
log_write("did delete\n");
} else {
App::Push(std::make_shared<ProgressBox>("Deleting"_i18n, [this](auto pbox){
App::Push(std::make_shared<ProgressBox>(0, "Deleting"_i18n, "", [this](auto pbox){
FsDirCollections collections;
// build list of dirs / files
@@ -1319,7 +1300,7 @@ void Menu::OnPasteCallback() {
Scan(m_path);
log_write("did paste\n");
} else {
App::Push(std::make_shared<ProgressBox>("Pasting"_i18n, [this](auto pbox){
App::Push(std::make_shared<ProgressBox>(0, "Pasting"_i18n, "", [this](auto pbox){
if (m_selected_type == SelectedType::Cut) {
for (const auto& p : m_selected_files) {

6
sphaira/source/ui/menus/ftp_menu.cpp
View File

@@ -146,6 +146,10 @@ Menu::Menu() : MenuBase{"FTP Install (EXPERIMENTAL)"_i18n} {
SetPop();
}});
SetAction(Button::X, Action{"Options"_i18n, [this](){
App::DisplayInstallOptions(false);
}});
mutexInit(&m_mutex);
ftpsrv::InitInstallMode(this, OnInstallStart, OnInstallWrite, OnInstallClose);
@@ -183,7 +187,7 @@ void Menu::Update(Controller* controller, TouchInfo* touch) {
log_write("set to progress\n");
m_state = State::Progress;
log_write("got connection\n");
App::Push(std::make_shared<ui::ProgressBox>("Installing App"_i18n, [this](auto pbox) mutable -> bool {
App::Push(std::make_shared<ui::ProgressBox>(0, "Installing "_i18n, "", [this](auto pbox) mutable -> bool {
log_write("inside progress box\n");
const auto rc = yati::InstallFromSource(pbox, m_source, m_source->m_path);
if (R_FAILED(rc)) {

506
sphaira/source/ui/menus/gc_menu.cpp
View File

@@ -1,5 +1,6 @@
#include "ui/menus/gc_menu.hpp"
#include "yati/yati.hpp"
#include "yati/nx/nca.hpp"
#include "app.hpp"
#include "defines.hpp"
#include "log.hpp"
@@ -10,26 +11,110 @@
namespace sphaira::ui::menu::gc {
namespace {
const char *g_option_list[] = {
"Nand Install",
"SD Card Install",
"Exit",
};
struct HashStr {
char str[0x21];
};
HashStr hexIdToStr(auto id) {
HashStr str{};
const auto id_lower = std::byteswap(*(u64*)id.c);
const auto id_upper = std::byteswap(*(u64*)(id.c + 0x8));
std::snprintf(str.str, 0x21, "%016lx%016lx", id_lower, id_upper);
return str;
}
// @Gc is the mount point, S is for secure partion, the remaining is the
// the gamecard handle value in lower-case hex.
auto BuildGcPath(const char* name, const FsGameCardHandle* handle, FsGameCardPartition partiton = FsGameCardPartition_Secure) -> fs::FsPath {
static const char mount_parition[] = {
[FsGameCardPartition_Update] = 'U',
[FsGameCardPartition_Normal] = 'N',
[FsGameCardPartition_Secure] = 'S',
[FsGameCardPartition_Logo] = 'L',
};
fs::FsPath path;
std::snprintf(path, sizeof(path), "@Gc%c%08x://%s", mount_parition[partiton], handle->value, name);
return path;
}
Result fsOpenGameCardDetectionEventNotifier(FsEventNotifier* out) {
return serviceDispatch(fsGetServiceSession(), 501,
.out_num_objects = 1,
.out_objects = &out->s
);
}
auto InRange(u64 off, u64 offset, u64 size) -> bool {
return off < offset + size && off >= offset;
}
struct GcSource final : yati::source::Base {
GcSource(const yati::container::Collections& collections, fs::FsNativeGameCard* fs);
GcSource(const ApplicationEntry& entry, fs::FsNativeGameCard* fs, bool sd_install);
~GcSource();
Result Read(void* buf, s64 off, s64 size, u64* bytes_read);
const yati::container::Collections& m_collections;
yati::container::Collections m_collections{};
yati::ConfigOverride m_config{};
fs::FsNativeGameCard* m_fs{};
FsFile m_file{};
s64 m_offset{};
s64 m_size{};
};
GcSource::GcSource(const yati::container::Collections& collections, fs::FsNativeGameCard* fs)
: m_collections{collections}
, m_fs{fs} {
GcSource::GcSource(const ApplicationEntry& entry, fs::FsNativeGameCard* fs, bool sd_install)
: m_fs{fs} {
m_offset = -1;
s64 offset{};
const auto add_collections = [&](const auto& collections) {
for (auto collection : collections) {
collection.offset = offset;
m_collections.emplace_back(collection);
offset += collection.size;
}
};
const auto add_entries = [&](const auto& entries) {
for (auto& e : entries) {
add_collections(e);
}
};
// yati can handle all of this for use, however, yati lacks information
// for ncas until it installs the cnmt and parses it.
// as we already have this info, we can only send yati what we want to install.
if (App::GetApp()->m_ticket_only.Get()) {
add_collections(entry.tickets);
} else {
if (!App::GetApp()->m_skip_base.Get()) {
add_entries(entry.application);
}
if (!App::GetApp()->m_skip_patch.Get()) {
add_entries(entry.patch);
}
if (!App::GetApp()->m_skip_addon.Get()) {
add_entries(entry.add_on);
}
if (!App::GetApp()->m_skip_data_patch.Get()) {
add_entries(entry.data_patch);
}
if (!App::GetApp()->m_skip_ticket.Get()) {
add_collections(entry.tickets);
}
}
// we don't need to verify the nca's, this speeds up installs.
m_config.sd_card_install = sd_install;
m_config.skip_nca_hash_verify = true;
m_config.skip_rsa_header_fixed_key_verify = true;
m_config.skip_rsa_npdm_fixed_key_verify = true;
}
GcSource::~GcSource() {
@@ -63,86 +148,133 @@ Result GcSource::Read(void* buf, s64 off, s64 size, u64* bytes_read) {
} // namespace
Menu::Menu() : MenuBase{"GameCard"_i18n} {
SetAction(Button::B, Action{"Back"_i18n, [this](){
SetPop();
}});
auto ApplicationEntry::GetSize(const std::vector<GcCollections>& entries) const -> s64 {
s64 size{};
for (auto& e : entries) {
for (auto& collection : e) {
size += collection.size;
}
}
return size;
}
SetAction(Button::X, Action{"Refresh"_i18n, [this](){
m_state = State::None;
}});
auto ApplicationEntry::GetSize() const -> s64 {
s64 size{};
size += GetSize(application);
size += GetSize(patch);
size += GetSize(add_on);
size += GetSize(data_patch);
return size;
}
Menu::Menu() : MenuBase{"GameCard"_i18n} {
this->SetActions(
std::make_pair(Button::B, Action{"Back"_i18n, [this](){
SetPop();
}}),
std::make_pair(Button::X, Action{"Options"_i18n, [this](){
App::DisplayInstallOptions(false);
}})
);
const Vec4 v{485, 275, 720, 70};
const Vec2 pad{0, 125 - v.h};
m_list = std::make_unique<List>(1, 3, m_pos, v, pad);
fsOpenDeviceOperator(std::addressof(m_dev_op));
fsOpenGameCardDetectionEventNotifier(std::addressof(m_event_notifier));
fsEventNotifierGetEventHandle(std::addressof(m_event_notifier), std::addressof(m_event), true);
GcOnEvent();
UpdateStorageSize();
}
Menu::~Menu() {
// manually close this as it needs(?) to be closed before dev_op.
m_fs.reset();
GcUnmount();
eventClose(std::addressof(m_event));
fsEventNotifierClose(std::addressof(m_event_notifier));
fsDeviceOperatorClose(std::addressof(m_dev_op));
}
void Menu::Update(Controller* controller, TouchInfo* touch) {
MenuBase::Update(controller, touch);
switch (m_state) {
case State::None: {
bool gc_inserted;
if (R_FAILED(fsDeviceOperatorIsGameCardInserted(std::addressof(m_dev_op), std::addressof(gc_inserted)))) {
m_state = State::Failed;
} else {
if (!gc_inserted) {
m_state = State::NotFound;
} else {
if (R_FAILED(ScanGamecard())) {
m_state = State::Failed;
}
}
}
} break;
case State::Progress:
case State::Done:
case State::NotFound:
case State::Failed:
break;
// poll for the gamecard first before handling inputs as the gamecard
// may have been removed, thus pressing A would fail.
if (R_SUCCEEDED(eventWait(std::addressof(m_event), 0))) {
GcOnEvent();
}
MenuBase::Update(controller, touch);
m_list->OnUpdate(controller, touch, m_option_index, std::size(g_option_list), [this](bool touch, auto i) {
if (touch && m_option_index == i) {
FireAction(Button::A);
} else {
App::PlaySoundEffect(SoundEffect_Focus);
m_option_index = i;
}
});
}
void Menu::Draw(NVGcontext* vg, Theme* theme) {
MenuBase::Draw(vg, theme);
switch (m_state) {
case State::None:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Waiting for connection..."_i18n.c_str());
break;
#define STORAGE_BAR_W 325
#define STORAGE_BAR_H 14
case State::Progress:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Transferring data..."_i18n.c_str());
break;
const auto size_sd_gb = (double)m_size_free_sd / 0x40000000;
const auto size_nand_gb = (double)m_size_free_nand / 0x40000000;
case State::NotFound:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "No GameCard inserted, press X to refresh"_i18n.c_str());
break;
gfx::drawTextArgs(vg, 490, 135, 23.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "System memory %.1f GB", size_nand_gb);
gfx::drawRect(vg, 480, 170, STORAGE_BAR_W, STORAGE_BAR_H, theme->GetColour(ThemeEntryID_TEXT));
gfx::drawRect(vg, 480 + 1, 170 + 1, STORAGE_BAR_W - 2, STORAGE_BAR_H - 2, theme->GetColour(ThemeEntryID_BACKGROUND));
gfx::drawRect(vg, 480 + 2, 170 + 2, STORAGE_BAR_W - (((double)m_size_free_nand / (double)m_size_total_nand) * STORAGE_BAR_W) - 4, STORAGE_BAR_H - 4, theme->GetColour(ThemeEntryID_TEXT));
case State::Done:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Installed GameCard, press B to exit..."_i18n.c_str());
break;
gfx::drawTextArgs(vg, 870, 135, 23.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "microSD card %.1f GB", size_sd_gb);
gfx::drawRect(vg, 860, 170, STORAGE_BAR_W, STORAGE_BAR_H, theme->GetColour(ThemeEntryID_TEXT));
gfx::drawRect(vg, 860 + 1, 170 + 1, STORAGE_BAR_W - 2, STORAGE_BAR_H - 2, theme->GetColour(ThemeEntryID_BACKGROUND));
gfx::drawRect(vg, 860 + 2, 170 + 2, STORAGE_BAR_W - (((double)m_size_free_sd / (double)m_size_total_sd) * STORAGE_BAR_W) - 4, STORAGE_BAR_H - 4, theme->GetColour(ThemeEntryID_TEXT));
case State::Failed:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Failed to scan GameCard..."_i18n.c_str());
break;
gfx::drawRect(vg, 30, 90, 375, 555, theme->GetColour(ThemeEntryID_GRID));
if (!m_entries.empty()) {
const auto& e = m_entries[m_entry_index];
const auto size = e.GetSize();
gfx::drawImage(vg, 90, 130, 256, 256, m_icon ? m_icon : App::GetDefaultImage());
nvgSave(vg);
nvgIntersectScissor(vg, 50, 90, 325, 555);
gfx::drawTextArgs(vg, 50, 415, 18.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "%s", m_lang_entry.name);
gfx::drawTextArgs(vg, 50, 455, 18.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "%s", m_lang_entry.author);
gfx::drawTextArgs(vg, 50, 495, 18.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "App-ID: 0%lX", e.app_id);
gfx::drawTextArgs(vg, 50, 535, 18.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "Key-Gen: %u (%s)", e.key_gen, nca::GetKeyGenStr(e.key_gen));
gfx::drawTextArgs(vg, 50, 575, 18.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "Size: %.2f GB", (double)size / 0x40000000);
gfx::drawTextArgs(vg, 50, 615, 18.f, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "Base: %zu Patch: %zu Addon: %zu Data: %zu", e.application.size(), e.patch.size(), e.add_on.size(), e.data_patch.size());
nvgRestore(vg);
}
m_list->Draw(vg, theme, std::size(g_option_list), [this](auto* vg, auto* theme, auto v, auto i) {
const auto& [x, y, w, h] = v;
const auto text_y = y + (h / 2.f);
auto colour = ThemeEntryID_TEXT;
if (i == m_option_index) {
gfx::drawRectOutline(vg, theme, 4.f, v);
// g_background.selected_bar = create_shape(Colour_Nintendo_Cyan, 90, 230, 4, 45, true);
// draw_shape_position(&g_background.selected_bar, 485, g_options[i].text->rect.y - 10);
gfx::drawRect(vg, 490, text_y - 45.f / 2.f, 2, 45, theme->GetColour(ThemeEntryID_TEXT_SELECTED));
colour = ThemeEntryID_TEXT_SELECTED;
}
if (i != 2 && !m_mounted) {
colour = ThemeEntryID_TEXT_INFO;
}
gfx::drawTextArgs(vg, x + 15, y + (h / 2.f), 23.f, NVG_ALIGN_LEFT | NVG_ALIGN_MIDDLE, theme->GetColour(colour), "%s", g_option_list[i]);
});
}
Result Menu::ScanGamecard() {
m_state = State::None;
m_fs.reset();
m_collections.clear();
Result Menu::GcMount() {
GcUnmount();
FsGameCardHandle gc_handle;
R_TRY(fsDeviceOperatorGetGameCardHandle(std::addressof(m_dev_op), std::addressof(gc_handle)));
R_TRY(fsDeviceOperatorGetGameCardHandle(std::addressof(m_dev_op), std::addressof(m_handle)));
m_fs = std::make_unique<fs::FsNativeGameCard>(std::addressof(gc_handle), FsGameCardPartition_Secure, false);
m_fs = std::make_unique<fs::FsNativeGameCard>(std::addressof(m_handle), FsGameCardPartition_Secure, false);
R_TRY(m_fs->GetFsOpenResult());
FsDir dir;
@@ -155,33 +287,245 @@ Result Menu::ScanGamecard() {
std::vector<FsDirectoryEntry> buf(count);
s64 total_entries;
R_TRY(m_fs->DirRead(std::addressof(dir), std::addressof(total_entries), buf.size(), buf.data()));
m_collections.reserve(total_entries);
R_UNLESS(buf.size() == total_entries, 0x1);
s64 offset{};
for (s64 i = 0; i < total_entries; i++) {
yati::container::CollectionEntry entry{};
entry.name = buf[i].name;
entry.offset = offset;
entry.size = buf[i].file_size;
m_collections.emplace_back(entry);
offset += buf[i].file_size;
yati::container::Collections ticket_collections;
for (const auto& e : buf) {
if (!std::string_view(e.name).ends_with(".tik") && !std::string_view(e.name).ends_with(".cert")) {
continue;
}
ticket_collections.emplace_back(e.name, 0, e.file_size);
}
m_state = State::Progress;
App::Push(std::make_shared<ui::ProgressBox>("Installing App"_i18n, [this](auto pbox) mutable -> bool {
auto source = std::make_shared<GcSource>(m_collections, m_fs.get());
return R_SUCCEEDED(yati::InstallFromCollections(pbox, source, m_collections));
}, [this](bool result){
if (result) {
App::Notify("Gc install success!"_i18n);
m_state = State::Done;
} else {
App::Notify("Gc install failed!"_i18n);
m_state = State::Failed;
for (const auto& e : buf) {
// we could use ncm to handle finding all the ncas for us
// however, we can parse faster than ncm.
// not only that, the first few calls trying to mount ncm db for
// the gamecard will fail as it has not yet been parsed (or it's locked?).
// we could, of course, just wait until ncm is ready, which is about
// 32ms, but i already have code for manually parsing cnmt so lets re-use it.
if (!std::string_view(e.name).ends_with(".cnmt.nca")) {
continue;
}
}));
// we don't yet use the header or extended header.
ncm::PackagedContentMeta header;
std::vector<u8> extended_header;
std::vector<NcmPackagedContentInfo> infos;
const auto path = BuildGcPath(e.name, &m_handle);
R_TRY(yati::ParseCnmtNca(path, 0, header, extended_header, infos));
u8 key_gen;
FsRightsId rights_id;
R_TRY(fsGetRightsIdAndKeyGenerationByPath(path, FsContentAttributes_All, &key_gen, &rights_id));
// always add tickets, yati will ignore them if not needed.
GcCollections collections;
// add cnmt file.
collections.emplace_back(e.name, e.file_size, NcmContentType_Meta, 0);
for (const auto& packed_info : infos) {
const auto& info = packed_info.info;
// these don't exist for gamecards, however i may copy/paste this code
// somewhere so i'm future proofing against myself.
if (info.content_type == NcmContentType_DeltaFragment) {
continue;
}
// find the nca file, this will never fail for gamecards, see above comment.
const auto str = hexIdToStr(info.content_id);
const auto it = std::find_if(buf.cbegin(), buf.cend(), [str](auto& e){
return !std::strncmp(str.str, e.name, std::strlen(str.str));
});
R_UNLESS(it != buf.cend(), yati::Result_NcaNotFound);
collections.emplace_back(it->name, it->file_size, info.content_type, info.id_offset);
}
const auto app_id = ncm::GetAppId(header);
ApplicationEntry* app_entry{};
for (auto& app : m_entries) {
if (app.app_id == app_id) {
app_entry = &app;
break;
}
}
if (!app_entry) {
app_entry = &m_entries.emplace_back(app_id, header.title_version);
}
app_entry->version = std::max(app_entry->version, header.title_version);
app_entry->key_gen = std::max(app_entry->key_gen, key_gen);
if (header.meta_type == NcmContentMetaType_Application) {
app_entry->application.emplace_back(collections);
} else if (header.meta_type == NcmContentMetaType_Patch) {
app_entry->patch.emplace_back(collections);
} else if (header.meta_type == NcmContentMetaType_AddOnContent) {
app_entry->add_on.emplace_back(collections);
} else if (header.meta_type == NcmContentMetaType_DataPatch) {
app_entry->data_patch.emplace_back(collections);
}
}
R_UNLESS(m_entries.size(), 0x1);
// append tickets to every application, yati will ignore if undeeded.
for (auto& e : m_entries) {
e.tickets = ticket_collections;
}
SetAction(Button::A, Action{"OK"_i18n, [this](){
if (m_option_index == 2) {
SetPop();
} else {
if (m_mounted) {
App::Push(std::make_shared<ui::ProgressBox>(m_icon, "Installing "_i18n, m_lang_entry.name, [this](auto pbox) mutable -> bool {
auto source = std::make_shared<GcSource>(m_entries[m_entry_index], m_fs.get(), m_option_index == 1);
return R_SUCCEEDED(yati::InstallFromCollections(pbox, source, source->m_collections, source->m_config));
}, [this](bool result){
if (result) {
App::Notify("Gc install success!"_i18n);
} else {
App::Notify("Gc install failed!"_i18n);
}
UpdateStorageSize();
}));
}
}
}});
if (m_entries.size() > 1) {
SetAction(Button::L, Action{"Prev"_i18n, [this](){
if (m_entry_index != 0) {
OnChangeIndex(m_entry_index - 1);
}
}});
SetAction(Button::R, Action{"Next"_i18n, [this](){
if (m_entry_index < m_entries.size()) {
OnChangeIndex(m_entry_index + 1);
}
}});
}
OnChangeIndex(0);
m_mounted = true;
R_SUCCEED();
}
void Menu::GcUnmount() {
m_fs.reset();
m_entries.clear();
m_entry_index = 0;
m_mounted = false;
m_lang_entry = {};
FreeImage();
RemoveAction(Button::L);
RemoveAction(Button::R);
}
Result Menu::GcPoll(bool* inserted) {
R_TRY(fsDeviceOperatorIsGameCardInserted(&m_dev_op, inserted));
// if the handle changed, re-mount the game card.
if (*inserted && m_mounted) {
FsGameCardHandle handle;
R_TRY(fsDeviceOperatorGetGameCardHandle(std::addressof(m_dev_op), std::addressof(handle)));
if (handle.value != m_handle.value) {
R_TRY(GcMount());
}
}
R_SUCCEED();
}
Result Menu::GcOnEvent() {
bool inserted{};
R_TRY(GcPoll(&inserted));
if (m_mounted != inserted) {
log_write("gc state changed\n");
m_mounted = inserted;
if (m_mounted) {
log_write("trying to mount\n");
m_mounted = R_SUCCEEDED(GcMount());
if (m_mounted) {
App::PlaySoundEffect(SoundEffect::SoundEffect_Startup);
}
} else {
log_write("trying to unmount\n");
GcUnmount();
}
}
R_SUCCEED();
}
Result Menu::UpdateStorageSize() {
fs::FsNativeContentStorage fs_nand{FsContentStorageId_User};
fs::FsNativeContentStorage fs_sd{FsContentStorageId_SdCard};
R_TRY(fs_sd.GetFreeSpace("/", &m_size_free_sd));
R_TRY(fs_sd.GetTotalSpace("/", &m_size_total_sd));
R_TRY(fs_nand.GetFreeSpace("/", &m_size_free_nand));
R_TRY(fs_nand.GetTotalSpace("/", &m_size_total_nand));
R_SUCCEED();
}
void Menu::FreeImage() {
if (m_icon) {
nvgDeleteImage(App::GetVg(), m_icon);
m_icon = 0;
}
}
void Menu::OnChangeIndex(s64 new_index) {
FreeImage();
m_entry_index = new_index;
const auto index = m_entries.empty() ? 0 : m_entry_index + 1;
this->SetSubHeading(std::to_string(index) + " / " + std::to_string(m_entries.size()));
// nsGetApplicationControlData() will fail if it's the first time
// mounting a gamecard if the image is not already cached.
// waiting 1-2s after mount, then calling seems to work.
// however, we can just manually parse the nca to get the data we need,
// which always works and *is* faster too ;)
for (auto& e : m_entries[m_entry_index].application) {
for (auto& collection : e) {
if (collection.type == NcmContentType_Control) {
NacpStruct nacp;
std::vector<u8> icon;
const auto path = BuildGcPath(collection.name.c_str(), &m_handle);
u64 program_id = m_entries[m_entry_index].app_id | collection.id_offset;
if (hosversionAtLeast(17, 0, 0)) {
fsGetProgramId(&program_id, path, FsContentAttributes_All);
}
if (R_SUCCEEDED(yati::ParseControlNca(path, program_id, &nacp, sizeof(nacp), &icon))) {
log_write("managed to parse control nca %s\n", path.s);
NacpLanguageEntry* lang_entry{};
nacpGetLanguageEntry(&nacp, &lang_entry);
if (lang_entry) {
m_lang_entry = *lang_entry;
}
m_icon = nvgCreateImageMem(App::GetVg(), 0, icon.data(), icon.size());
if (m_icon > 0) {
return;
}
} else {
log_write("\tFAILED to parse control nca %s\n", path.s);
}
}
}
}
}
} // namespace sphaira::ui::menu::gc

29
sphaira/source/ui/menus/ghdl.cpp
View File

@@ -247,27 +247,6 @@ Menu::Menu() : MenuBase{"GitHub"_i18n} {
fs::FsNativeSd().CreateDirectoryRecursively(CACHE_PATH);
this->SetActions(
std::make_pair(Button::DOWN, Action{[this](){
if (m_list->ScrollDown(m_index, 1, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
if (m_list->ScrollUp(m_index, 1, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::DPAD_RIGHT, Action{[this](){
if (m_list->ScrollDown(m_index, 8, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::DPAD_LEFT, Action{[this](){
if (m_list->ScrollUp(m_index, 8, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::A, Action{"Download"_i18n, [this](){
if (m_entries.empty()) {
return;
@@ -277,7 +256,7 @@ Menu::Menu() : MenuBase{"GitHub"_i18n} {
static GhApiEntry gh_entry;
gh_entry = {};
App::Push(std::make_shared<ProgressBox>("Downloading "_i18n + GetEntry().repo, [this](auto pbox){
App::Push(std::make_shared<ProgressBox>(0, "Downloading "_i18n, GetEntry().repo, [this](auto pbox){
return DownloadAssetJson(pbox, GenerateApiUrl(GetEntry()), gh_entry);
}, [this](bool success){
if (success) {
@@ -325,7 +304,7 @@ Menu::Menu() : MenuBase{"GitHub"_i18n} {
}
const auto func = [this, &asset_entry, ptr](){
App::Push(std::make_shared<ProgressBox>("Downloading "_i18n + GetEntry().repo, [this, &asset_entry, ptr](auto pbox){
App::Push(std::make_shared<ProgressBox>(0, "Downloading "_i18n, GetEntry().repo, [this, &asset_entry, ptr](auto pbox){
return DownloadApp(pbox, asset_entry, ptr);
}, [this, ptr](bool success){
if (success) {
@@ -373,8 +352,8 @@ Menu::~Menu() {
void Menu::Update(Controller* controller, TouchInfo* touch) {
MenuBase::Update(controller, touch);
m_list->OnUpdate(controller, touch, m_entries.size(), [this](auto i) {
if (m_index == i) {
m_list->OnUpdate(controller, touch, m_index, m_entries.size(), [this](bool touch, auto i) {
if (touch && m_index == i) {
FireAction(Button::A);
} else {
App::PlaySoundEffect(SoundEffect_Focus);

40
sphaira/source/ui/menus/homebrew.cpp
View File

@@ -28,40 +28,6 @@ auto GenerateStarPath(const fs::FsPath& nro_path) -> fs::FsPath {
Menu::Menu() : MenuBase{"Homebrew"_i18n} {
this->SetActions(
std::make_pair(Button::RIGHT, Action{[this](){
if (m_index < (m_entries.size() - 1) && (m_index + 1) % 3 != 0) {
SetIndex(m_index + 1);
App::PlaySoundEffect(SoundEffect_Scroll);
log_write("moved right\n");
}
}}),
std::make_pair(Button::LEFT, Action{[this](){
if (m_index != 0 && (m_index % 3) != 0) {
SetIndex(m_index - 1);
App::PlaySoundEffect(SoundEffect_Scroll);
log_write("moved left\n");
}
}}),
std::make_pair(Button::DOWN, Action{[this](){
if (m_list->ScrollDown(m_index, 3, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
if (m_list->ScrollUp(m_index, 3, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::R2, Action{[this](){
if (m_list->ScrollDown(m_index, 9, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::L2, Action{[this](){
if (m_list->ScrollUp(m_index, 9, m_entries.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::A, Action{"Launch"_i18n, [this](){
nro_launch(m_entries[m_index].path);
}}),
@@ -157,8 +123,8 @@ Menu::~Menu() {
void Menu::Update(Controller* controller, TouchInfo* touch) {
MenuBase::Update(controller, touch);
m_list->OnUpdate(controller, touch, m_entries.size(), [this](auto i) {
if (m_index == i) {
m_list->OnUpdate(controller, touch, m_index, m_entries.size(), [this](bool touch, auto i) {
if (touch && m_index == i) {
FireAction(Button::A);
} else {
App::PlaySoundEffect(SoundEffect_Focus);
@@ -202,7 +168,7 @@ void Menu::Draw(NVGcontext* vg, Theme* theme) {
}
const float image_size = 115;
gfx::drawImageRounded(vg, x + 20, y + 20, image_size, image_size, e.image ? e.image : App::GetDefaultImage());
gfx::drawImage(vg, x + 20, y + 20, image_size, image_size, e.image ? e.image : App::GetDefaultImage(), 15);
nvgSave(vg);
nvgIntersectScissor(vg, x, y, w - 30.f, h); // clip

533
sphaira/source/ui/menus/irs_menu.cpp
View File

@@ -1,533 +0,0 @@
#include "ui/menus/irs_menu.hpp"
#include "ui/sidebar.hpp"
#include "ui/popup_list.hpp"
#include "app.hpp"
#include "defines.hpp"
#include "log.hpp"
#include "ui/nvg_util.hpp"
#include "i18n.hpp"
#include <cstring>
#include <array>
namespace sphaira::ui::menu::irs {
namespace {
// from trial and error
constexpr u32 GAIN_MIN = 1;
constexpr u32 GAIN_MAX = 16;
consteval auto generte_iron_palette_table() {
std::array<u32, 256> array{};
const u32 iron_palette[] = {
0xff000014, 0xff000025, 0xff00002a, 0xff000032, 0xff000036, 0xff00003e, 0xff000042, 0xff00004f,
0xff010055, 0xff010057, 0xff02005c, 0xff03005e, 0xff040063, 0xff050065, 0xff070069, 0xff0a0070,
0xff0b0073, 0xff0d0075, 0xff0d0076, 0xff100078, 0xff120079, 0xff15007c, 0xff17007d, 0xff1c0081,
0xff200084, 0xff220085, 0xff260087, 0xff280089, 0xff2c008a, 0xff2e008b, 0xff32008d, 0xff38008f,
0xff390090, 0xff3c0092, 0xff3e0093, 0xff410094, 0xff420095, 0xff450096, 0xff470096, 0xff4c0097,
0xff4f0097, 0xff510097, 0xff540098, 0xff560098, 0xff5a0099, 0xff5c0099, 0xff5f009a, 0xff64009b,
0xff66009b, 0xff6a009b, 0xff6c009c, 0xff6f009c, 0xff70009c, 0xff73009d, 0xff75009d, 0xff7a009d,
0xff7e009d, 0xff7f009d, 0xff83009d, 0xff84009d, 0xff87009d, 0xff89009d, 0xff8b009d, 0xff91009c,
0xff93009c, 0xff96009b, 0xff98009b, 0xff9b009b, 0xff9c009b, 0xff9f009b, 0xffa0009b, 0xffa4009b,
0xffa7009a, 0xffa8009a, 0xffaa0099, 0xffab0099, 0xffae0198, 0xffaf0198, 0xffb00198, 0xffb30196,
0xffb40296, 0xffb60295, 0xffb70395, 0xffb90495, 0xffba0495, 0xffbb0593, 0xffbc0593, 0xffbf0692,
0xffc00791, 0xffc00791, 0xffc10990, 0xffc20a8f, 0xffc30b8e, 0xffc40c8d, 0xffc60d8b, 0xffc81088,
0xffc91187, 0xffca1385, 0xffcb1385, 0xffcc1582, 0xffcd1681, 0xffce187e, 0xffcf187c, 0xffd11b78,
0xffd21c75, 0xffd21d74, 0xffd32071, 0xffd4216f, 0xffd5236b, 0xffd52469, 0xffd72665, 0xffd92a60,
0xffda2b5e, 0xffdb2e5a, 0xffdb2f57, 0xffdd3051, 0xffdd314e, 0xffde3347, 0xffdf3444, 0xffe0373a,
0xffe03933, 0xffe13a30, 0xffe23c2a, 0xffe33d26, 0xffe43f20, 0xffe4411d, 0xffe5431b, 0xffe64616,
0xffe74715, 0xffe74913, 0xffe84a12, 0xffe84c0f, 0xffe94d0e, 0xffea4e0c, 0xffea4f0c, 0xffeb520a,
0xffec5409, 0xffec5608, 0xffec5808, 0xffed5907, 0xffed5b06, 0xffee5c06, 0xffee5d05, 0xffef6004,
0xffef6104, 0xfff06303, 0xfff06403, 0xfff16603, 0xfff16603, 0xfff16803, 0xfff16902, 0xfff16b02,
0xfff26d01, 0xfff26e01, 0xfff37001, 0xfff37101, 0xfff47300, 0xfff47400, 0xfff47600, 0xfff47a00,
0xfff57b00, 0xfff57e00, 0xfff57f00, 0xfff68100, 0xfff68200, 0xfff78400, 0xfff78500, 0xfff88800,
0xfff88900, 0xfff88a00, 0xfff88c00, 0xfff98d00, 0xfff98e00, 0xfff98f00, 0xfff99100, 0xfffa9400,
0xfffa9500, 0xfffb9800, 0xfffb9900, 0xfffb9c00, 0xfffc9d00, 0xfffca000, 0xfffca100, 0xfffda400,
0xfffda700, 0xfffda800, 0xfffdab00, 0xfffdac00, 0xfffdae00, 0xfffeaf00, 0xfffeb100, 0xfffeb400,
0xfffeb500, 0xfffeb800, 0xfffeb900, 0xfffeba00, 0xfffebb00, 0xfffebd00, 0xfffebe00, 0xfffec200,
0xfffec400, 0xfffec500, 0xfffec700, 0xfffec800, 0xfffeca01, 0xfffeca01, 0xfffecc02, 0xfffecf04,
0xfffecf04, 0xfffed106, 0xfffed308, 0xfffed50a, 0xfffed60a, 0xfffed80c, 0xfffed90d, 0xffffdb10,
0xffffdc14, 0xffffdd16, 0xffffde1b, 0xffffdf1e, 0xffffe122, 0xffffe224, 0xffffe328, 0xffffe531,
0xffffe635, 0xffffe73c, 0xffffe83f, 0xffffea46, 0xffffeb49, 0xffffec50, 0xffffed54, 0xffffee5f,
0xffffef67, 0xfffff06a, 0xfffff172, 0xfffff177, 0xfffff280, 0xfffff285, 0xfffff38e, 0xfffff49a,
0xfffff59e, 0xfffff5a6, 0xfffff6aa, 0xfffff7b3, 0xfffff7b6, 0xfffff8bd, 0xfffff8c1, 0xfffff9ca,
0xfffffad1, 0xfffffad4, 0xfffffcdb, 0xfffffcdf, 0xfffffde5, 0xfffffde8, 0xfffffeee, 0xfffffff6
};
for (u32 i = 0; i < 256; i++) {
const auto c = iron_palette[i];
array[i] = RGBA8_MAXALPHA((c >> 16) & 0xFF, (c >> 8) & 0xFF, (c >> 0) & 0xFF);
}
return array;
}
// ARGB Ironbow palette
constexpr auto iron_palette = generte_iron_palette_table();
void irsConvertConfigExToNormal(const IrsImageTransferProcessorExConfig* ex, IrsImageTransferProcessorConfig* nor) {
std::memcpy(nor, ex, sizeof(*nor));
}
void irsConvertConfigNormalToEx(const IrsImageTransferProcessorConfig* nor, IrsImageTransferProcessorExConfig* ex) {
std::memcpy(ex, nor, sizeof(*nor));
}
} // namespace
Menu::Menu() : MenuBase{"Irs"_i18n} {
SetAction(Button::B, Action{"Back"_i18n, [this](){
SetPop();
}});
SetAction(Button::X, Action{"Options"_i18n, [this](){
auto options = std::make_shared<Sidebar>("Options"_i18n, Sidebar::Side::RIGHT);
ON_SCOPE_EXIT(App::Push(options));
SidebarEntryArray::Items controller_str;
for (u32 i = 0; i < IRS_MAX_CAMERAS; i++) {
const auto& e = m_entries[i];
std::string text = "Pad "_i18n + (i == 8 ? "HandHeld"_i18n : std::to_string(i));
switch (e.status) {
case IrsIrCameraStatus_Available:
text += " (Available)"_i18n;
break;
case IrsIrCameraStatus_Unsupported:
text += " (Unsupported)"_i18n;
break;
case IrsIrCameraStatus_Unconnected:
text += " (Unconnected)"_i18n;
break;
}
controller_str.emplace_back(text);
}
SidebarEntryArray::Items rotation_str;
rotation_str.emplace_back("0 (Sideways)"_i18n);
rotation_str.emplace_back("90 (Flat)"_i18n);
rotation_str.emplace_back("180 (-Sideways)"_i18n);
rotation_str.emplace_back("270 (Upside down)"_i18n);
SidebarEntryArray::Items colour_str;
colour_str.emplace_back("Grey"_i18n);
colour_str.emplace_back("Ironbow"_i18n);
colour_str.emplace_back("Green"_i18n);
colour_str.emplace_back("Red"_i18n);
colour_str.emplace_back("Blue"_i18n);
SidebarEntryArray::Items light_target_str;
light_target_str.emplace_back("All leds"_i18n);
light_target_str.emplace_back("Bright group"_i18n);
light_target_str.emplace_back("Dim group"_i18n);
light_target_str.emplace_back("None"_i18n);
SidebarEntryArray::Items gain_str;
for (u32 i = GAIN_MIN; i <= GAIN_MAX; i++) {
gain_str.emplace_back(std::to_string(i));
}
SidebarEntryArray::Items is_negative_image_used_str;
is_negative_image_used_str.emplace_back("Normal image"_i18n);
is_negative_image_used_str.emplace_back("Negative image"_i18n);
SidebarEntryArray::Items format_str;
format_str.emplace_back("320x240"_i18n);
format_str.emplace_back("160x120"_i18n);
format_str.emplace_back("80x60"_i18n);
if (hosversionAtLeast(4,0,0)) {
format_str.emplace_back("40x30"_i18n);
format_str.emplace_back("20x15"_i18n);
}
options->Add(std::make_shared<SidebarEntryArray>("Controller"_i18n, controller_str, [this](s64& index){
irsStopImageProcessor(m_entries[m_index].m_handle);
m_index = index;
UpdateConfig(&m_config);
}, m_index));
options->Add(std::make_shared<SidebarEntryArray>("Rotation"_i18n, rotation_str, [this](s64& index){
m_rotation = (Rotation)index;
}, m_rotation));
options->Add(std::make_shared<SidebarEntryArray>("Colour"_i18n, colour_str, [this](s64& index){
m_colour = (Colour)index;
updateColourArray();
}, m_colour));
options->Add(std::make_shared<SidebarEntryArray>("Light Target"_i18n, light_target_str, [this](s64& index){
m_config.light_target = index;
UpdateConfig(&m_config);
}, m_config.light_target));
options->Add(std::make_shared<SidebarEntryArray>("Gain"_i18n, gain_str, [this](s64& index){
m_config.gain = GAIN_MIN + index;
UpdateConfig(&m_config);
}, m_config.gain - GAIN_MIN));
options->Add(std::make_shared<SidebarEntryArray>("Negative Image"_i18n, is_negative_image_used_str, [this](s64& index){
m_config.is_negative_image_used = index;
UpdateConfig(&m_config);
}, m_config.is_negative_image_used));
options->Add(std::make_shared<SidebarEntryArray>("Format"_i18n, format_str, [this](s64& index){
m_config.orig_format = index;
m_config.trimming_format = index;
UpdateConfig(&m_config);
}, m_config.orig_format));
if (hosversionAtLeast(4,0,0)) {
options->Add(std::make_shared<SidebarEntryArray>("Trimming Format"_i18n, format_str, [this](s64& index){
// you cannot set trim a larger region than the source
if (index < m_config.orig_format) {
index = m_config.orig_format;
} else {
m_config.trimming_format = index;
UpdateConfig(&m_config);
}
}, m_config.orig_format));
options->Add(std::make_shared<SidebarEntryBool>("External Light Filter"_i18n, m_config.is_external_light_filter_enabled, [this](bool& enable){
m_config.is_external_light_filter_enabled = enable;
UpdateConfig(&m_config);
}, "Enabled"_i18n, "Disabled"_i18n));
}
options->Add(std::make_shared<SidebarEntryCallback>("Load Default"_i18n, [this](){
LoadDefaultConfig();
}, true));
}});
if (R_FAILED(m_init_rc = irsInitialize())) {
return;
}
static_assert(IRS_MAX_CAMERAS >= 9, "max camaeras has gotten smaller!");
// open all handles
irsGetIrCameraHandle(&m_entries[0].m_handle, HidNpadIdType_No1);
irsGetIrCameraHandle(&m_entries[1].m_handle, HidNpadIdType_No2);
irsGetIrCameraHandle(&m_entries[2].m_handle, HidNpadIdType_No3);
irsGetIrCameraHandle(&m_entries[3].m_handle, HidNpadIdType_No4);
irsGetIrCameraHandle(&m_entries[4].m_handle, HidNpadIdType_No5);
irsGetIrCameraHandle(&m_entries[5].m_handle, HidNpadIdType_No6);
irsGetIrCameraHandle(&m_entries[6].m_handle, HidNpadIdType_No7);
irsGetIrCameraHandle(&m_entries[7].m_handle, HidNpadIdType_No8);
irsGetIrCameraHandle(&m_entries[8].m_handle, HidNpadIdType_Handheld);
// get status of all handles
PollCameraStatus(true);
// load default config
LoadDefaultConfig();
}
Menu::~Menu() {
ResetImage();
for (auto& e : m_entries) {
irsStopImageProcessor(e.m_handle);
}
// this closes all handles
irsExit();
}
void Menu::Update(Controller* controller, TouchInfo* touch) {
MenuBase::Update(controller, touch);
PollCameraStatus();
}
void Menu::Draw(NVGcontext* vg, Theme* theme) {
MenuBase::Draw(vg, theme);
IrsImageTransferProcessorState state;
const auto rc = irsGetImageTransferProcessorState(m_entries[m_index].m_handle, m_irs_buffer.data(), m_irs_buffer.size(), &state);
if (R_SUCCEEDED(rc) && state.sampling_number != m_prev_state.sampling_number) {
m_prev_state = state;
SetSubHeading("Ambient Noise Level: "_i18n + std::to_string(m_prev_state.ambient_noise_level));
updateColourArray();
}
if (m_image) {
float cx{}, cy{};
float w{}, h{};
float angle{};
switch (m_rotation) {
case Rotation_0: {
const auto scale_x = m_pos.w / float(m_irs_width);
const auto scale_y = m_pos.h / float(m_irs_height);
const auto scale = std::min(scale_x, scale_y);
w = m_irs_width * scale;
h = m_irs_height * scale;
cx = (m_pos.x + m_pos.w / 2.F) - w / 2.F;
cy = (m_pos.y + m_pos.h / 2.F) - h / 2.F;
angle = 0;
} break;
case Rotation_90: {
const auto scale_x = m_pos.w / float(m_irs_height);
const auto scale_y = m_pos.h / float(m_irs_width);
const auto scale = std::min(scale_x, scale_y);
w = m_irs_width * scale;
h = m_irs_height * scale;
cx = (m_pos.x + m_pos.w / 2.F) + h / 2.F;
cy = (m_pos.y + m_pos.h / 2.F) - w / 2.F;
angle = 90;
} break;
case Rotation_180: {
const auto scale_x = m_pos.w / float(m_irs_width);
const auto scale_y = m_pos.h / float(m_irs_height);
const auto scale = std::min(scale_x, scale_y);
w = m_irs_width * scale;
h = m_irs_height * scale;
cx = (m_pos.x + m_pos.w / 2.F) + w / 2.F;
cy = (m_pos.y + m_pos.h / 2.F) + h / 2.F;
angle = 180;
} break;
case Rotation_270: {
const auto scale_x = m_pos.w / float(m_irs_height);
const auto scale_y = m_pos.h / float(m_irs_width);
const auto scale = std::min(scale_x, scale_y);
w = m_irs_width * scale;
h = m_irs_height * scale;
cx = (m_pos.x + m_pos.w / 2.F) - h / 2.F;
cy = (m_pos.y + m_pos.h / 2.F) + w / 2.F;
angle = 270;
} break;
}
nvgSave(vg);
nvgTranslate(vg, cx, cy);
const auto paint = nvgImagePattern(vg, 0, 0, w, h, 0, m_image, 1.f);
nvgRotate(vg, nvgDegToRad(angle));
nvgBeginPath(vg);
nvgRect(vg, 0, 0, w, h);
nvgFillPaint(vg, paint);
nvgFill(vg);
nvgRestore(vg);
}
}
void Menu::OnFocusGained() {
MenuBase::OnFocusGained();
}
void Menu::PollCameraStatus(bool statup) {
int index = 0;
for (auto& e : m_entries) {
IrsIrCameraStatus status;
if (R_FAILED(irsGetIrCameraStatus(e.m_handle, &status))) {
log_write("failed to get ir status\n");
continue;
}
if (e.status != status || statup) {
e.status = status;
e.m_update_needed = false;
log_write("status changed\n");
switch (e.status) {
case IrsIrCameraStatus_Available:
if (hosversionAtLeast(4,0,0)) {
// calling this breaks the handle, kinda
#if 0
if (R_FAILED(irsCheckFirmwareUpdateNecessity(e.m_handle, &e.m_update_needed))) {
log_write("failed to check if update needed: %u\n", e.m_update_needed);
} else {
if (e.m_update_needed) {
log_write("update needed\n");
} else {
log_write("no update needed\n");
}
}
#endif
}
log_write("irs index: %d status: IrsIrCameraStatus_Available\n", index);
break;
case IrsIrCameraStatus_Unsupported:
log_write("irs index: %d status: IrsIrCameraStatus_Unsupported\n", index);
break;
case IrsIrCameraStatus_Unconnected:
log_write("irs index: %d status: IrsIrCameraStatus_Unconnected\n", index);
break;
}
}
index++;
}
}
void Menu::ResetImage() {
if (m_image) {
nvgDeleteImage(App::GetVg(), m_image);
m_image = 0;
}
}
void Menu::UpdateImage() {
ResetImage();
m_image = nvgCreateImageRGBA(App::GetVg(), m_irs_width, m_irs_height, NVG_IMAGE_NEAREST, (const unsigned char*)m_rgba.data());
}
void Menu::LoadDefaultConfig() {
IrsImageTransferProcessorExConfig ex_config;
if (hosversionAtLeast(4,0,0)) {
irsGetDefaultImageTransferProcessorExConfig(&ex_config);
} else {
IrsImageTransferProcessorConfig nor_config;
irsGetDefaultImageTransferProcessorConfig(&nor_config);
irsConvertConfigNormalToEx(&nor_config, &ex_config);
}
irsGetMomentProcessorDefaultConfig(&m_moment_config);
irsGetClusteringProcessorDefaultConfig(&m_clustering_config);
irsGetIrLedProcessorDefaultConfig(&m_led_config);
m_tera_config = {};
m_adaptive_config = {};
m_hand_config = {};
UpdateConfig(&ex_config);
}
void Menu::UpdateConfig(const IrsImageTransferProcessorExConfig* config) {
m_config = *config;
irsStopImageProcessor(m_entries[m_index].m_handle);
if (R_FAILED(irsRunMomentProcessor(m_entries[m_index].m_handle, &m_moment_config))) {
log_write("failed to irsRunMomentProcessor\n");
} else {
log_write("did irsRunMomentProcessor\n");
}
if (R_FAILED(irsRunClusteringProcessor(m_entries[m_index].m_handle, &m_clustering_config))) {
log_write("failed to irsRunClusteringProcessor\n");
} else {
log_write("did irsRunClusteringProcessor\n");
}
if (R_FAILED(irsRunPointingProcessor(m_entries[m_index].m_handle))) {
log_write("failed to irsRunPointingProcessor\n");
} else {
log_write("did irsRunPointingProcessor\n");
}
if (R_FAILED(irsRunTeraPluginProcessor(m_entries[m_index].m_handle, &m_tera_config))) {
log_write("failed to irsRunTeraPluginProcessor\n");
} else {
log_write("did irsRunTeraPluginProcessor\n");
}
if (R_FAILED(irsRunIrLedProcessor(m_entries[m_index].m_handle, &m_led_config))) {
log_write("failed to irsRunIrLedProcessor\n");
} else {
log_write("did irsRunIrLedProcessor\n");
}
if (R_FAILED(irsRunAdaptiveClusteringProcessor(m_entries[m_index].m_handle, &m_adaptive_config))) {
log_write("failed to irsRunAdaptiveClusteringProcessor\n");
} else {
log_write("did irsRunAdaptiveClusteringProcessor\n");
}
if (R_FAILED(irsRunHandAnalysis(m_entries[m_index].m_handle, &m_hand_config))) {
log_write("failed to irsRunHandAnalysis\n");
} else {
log_write("did irsRunHandAnalysis\n");
}
if (hosversionAtLeast(4,0,0)) {
m_init_rc = irsRunImageTransferExProcessor(m_entries[m_index].m_handle, &m_config, 0x10000000);
} else {
IrsImageTransferProcessorConfig nor;
irsConvertConfigExToNormal(&m_config, &nor);
m_init_rc = irsRunImageTransferProcessor(m_entries[m_index].m_handle, &nor, 0x10000000);
}
if (R_FAILED(m_init_rc)) {
log_write("irs failed to set config!\n");
}
auto format = m_config.orig_format;
log_write("IRS CONFIG\n");
log_write("\texposure_time: %lu\n", m_config.exposure_time);
log_write("\tlight_target: %u\n", m_config.light_target);
log_write("\tgain: %u\n", m_config.gain);
log_write("\tis_negative_image_used: %u\n", m_config.is_negative_image_used);
log_write("\tlight_target: %u\n", m_config.light_target);
if (hosversionAtLeast(4,0,0)) {
format = m_config.trimming_format;
log_write("\ttrimming_format: %u\n", m_config.trimming_format);
log_write("\ttrimming_start_x: %u\n", m_config.trimming_start_x);
log_write("\ttrimming_start_y: %u\n", m_config.trimming_start_y);
log_write("\tis_external_light_filter_enabled: %u\n", m_config.is_external_light_filter_enabled);
}
switch (format) {
case IrsImageTransferProcessorFormat_320x240:
log_write("\tsetting format: %s\n", "IrsImageTransferProcessorFormat_320x240");
m_irs_width = 320;
m_irs_height = 240;
break;
case IrsImageTransferProcessorFormat_160x120:
log_write("\tsetting format: %s\n", "IrsImageTransferProcessorFormat_160x120");
m_irs_width = 160;
m_irs_height = 120;
break;
case IrsImageTransferProcessorFormat_80x60:
log_write("\tsetting format: %s\n", "IrsImageTransferProcessorFormat_80x60");
m_irs_width = 80;
m_irs_height = 60;
break;
case IrsImageTransferProcessorFormat_40x30:
log_write("\tsetting format: %s\n", "IrsImageTransferProcessorFormat_40x30");
m_irs_width = 40;
m_irs_height = 30;
break;
case IrsImageTransferProcessorFormat_20x15:
log_write("\tsetting format: %s\n", "IrsImageTransferProcessorFormat_20x15");
m_irs_width = 20;
m_irs_height = 15;
break;
}
m_rgba.resize(m_irs_width * m_irs_height);
m_irs_buffer.resize(m_irs_width * m_irs_height);
m_prev_state.sampling_number = UINT64_MAX;
std::fill(m_irs_buffer.begin(), m_irs_buffer.end(), 0);
updateColourArray();
}
void Menu::updateColourArray() {
const auto ir_width = m_irs_width;
const auto ir_height = m_irs_height;
const auto colour = m_colour;
for (u32 y = 0; y < ir_height; y++) {
for (u32 x = 0; x < ir_width; x++) {
const u32 pos = y * ir_width + x;
const u32 pos2 = y * ir_width + x;
switch (colour) {
case Colour_Grey:
m_rgba[pos] = RGBA8_MAXALPHA(m_irs_buffer[pos2], m_irs_buffer[pos2], m_irs_buffer[pos2]);
break;
case Colour_Ironbow:
m_rgba[pos] = iron_palette[m_irs_buffer[pos2]];
break;
case Colour_Green:
m_rgba[pos] = RGBA8_MAXALPHA(0, m_irs_buffer[pos2], 0);
break;
case Colour_Red:
m_rgba[pos] = RGBA8_MAXALPHA(m_irs_buffer[pos2], 0, 0);
break;
case Colour_Blue:
m_rgba[pos] = RGBA8_MAXALPHA(0, 0, m_irs_buffer[pos2]);
break;
}
}
}
UpdateImage();
}
} // namespace sphaira::ui::menu::irs

185
sphaira/source/ui/menus/main_menu.cpp
View File

@@ -1,10 +1,4 @@
#include "ui/menus/main_menu.hpp"
#include "ui/menus/irs_menu.hpp"
#include "ui/menus/themezer.hpp"
#include "ui/menus/ghdl.hpp"
#include "ui/menus/usb_menu.hpp"
#include "ui/menus/ftp_menu.hpp"
#include "ui/menus/gc_menu.hpp"
#include "ui/sidebar.hpp"
#include "ui/popup_list.hpp"
@@ -16,7 +10,6 @@
#include "log.hpp"
#include "download.hpp"
#include "defines.hpp"
#include "web.hpp"
#include "i18n.hpp"
#include <cstring>
@@ -215,6 +208,9 @@ MainMenu::MainMenu() {
this->SetActions(
std::make_pair(Button::START, Action{App::Exit}),
std::make_pair(Button::SELECT, Action{"Misc"_i18n, [this](){
App::DisplayMiscOptions();
}}),
std::make_pair(Button::Y, Action{"Menu"_i18n, [this](){
auto options = std::make_shared<Sidebar>("Menu Options"_i18n, "v" APP_VERSION_HASH, Sidebar::Side::LEFT);
ON_SCOPE_EXIT(App::Push(options));
@@ -235,48 +231,29 @@ MainMenu::MainMenu() {
language_items.push_back("Swedish"_i18n);
language_items.push_back("Vietnamese"_i18n);
options->Add(std::make_shared<SidebarEntryCallback>("Theme"_i18n, [this](){
SidebarEntryArray::Items theme_items{};
const auto theme_meta = App::GetThemeMetaList();
for (auto& p : theme_meta) {
theme_items.emplace_back(p.name);
}
auto options = std::make_shared<Sidebar>("Theme Options"_i18n, Sidebar::Side::LEFT);
ON_SCOPE_EXIT(App::Push(options));
options->Add(std::make_shared<SidebarEntryArray>("Select Theme"_i18n, theme_items, [this, theme_items](s64& index_out){
App::SetTheme(index_out);
}, App::GetThemeIndex()));
options->Add(std::make_shared<SidebarEntryBool>("Music"_i18n, App::GetThemeMusicEnable(), [this](bool& enable){
App::SetThemeMusicEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("12 Hour Time"_i18n, App::Get12HourTimeEnable(), [this](bool& enable){
App::Set12HourTimeEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryCallback>("Theme"_i18n, [](){
App::DisplayThemeOptions();
}));
options->Add(std::make_shared<SidebarEntryCallback>("Network"_i18n, [this](){
auto options = std::make_shared<Sidebar>("Network Options"_i18n, Sidebar::Side::LEFT);
ON_SCOPE_EXIT(App::Push(options));
options->Add(std::make_shared<SidebarEntryBool>("Ftp"_i18n, App::GetFtpEnable(), [this](bool& enable){
options->Add(std::make_shared<SidebarEntryBool>("Ftp"_i18n, App::GetFtpEnable(), [](bool& enable){
App::SetFtpEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Mtp"_i18n, App::GetMtpEnable(), [this](bool& enable){
options->Add(std::make_shared<SidebarEntryBool>("Mtp"_i18n, App::GetMtpEnable(), [](bool& enable){
App::SetMtpEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Nxlink"_i18n, App::GetNxlinkEnable(), [this](bool& enable){
options->Add(std::make_shared<SidebarEntryBool>("Nxlink"_i18n, App::GetNxlinkEnable(), [](bool& enable){
App::SetNxlinkEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
if (m_update_state == UpdateState::Update) {
options->Add(std::make_shared<SidebarEntryCallback>("Download update: "_i18n + m_update_version, [this](){
App::Push(std::make_shared<ProgressBox>("Downloading "_i18n + m_update_version, [this](auto pbox){
App::Push(std::make_shared<ProgressBox>(0, "Downloading "_i18n, "Sphaira v" + m_update_version, [this](auto pbox){
return InstallUpdate(pbox, m_update_url, m_update_version);
}, [this](bool success){
if (success) {
@@ -295,150 +272,16 @@ MainMenu::MainMenu() {
}
}));
options->Add(std::make_shared<SidebarEntryArray>("Language"_i18n, language_items, [this](s64& index_out){
options->Add(std::make_shared<SidebarEntryArray>("Language"_i18n, language_items, [](s64& index_out){
App::SetLanguage(index_out);
}, (s64)App::GetLanguage()));
options->Add(std::make_shared<SidebarEntryCallback>("Misc"_i18n, [this](){
auto options = std::make_shared<Sidebar>("Misc Options"_i18n, Sidebar::Side::LEFT);
ON_SCOPE_EXIT(App::Push(options));
options->Add(std::make_shared<SidebarEntryCallback>("Themezer"_i18n, [](){
App::Push(std::make_shared<menu::themezer::Menu>());
}));
options->Add(std::make_shared<SidebarEntryCallback>("GitHub"_i18n, [](){
App::Push(std::make_shared<menu::gh::Menu>());
}));
options->Add(std::make_shared<SidebarEntryCallback>("Irs"_i18n, [](){
App::Push(std::make_shared<menu::irs::Menu>());
}));
if (App::IsApplication()) {
options->Add(std::make_shared<SidebarEntryCallback>("Web"_i18n, [](){
WebShow("https://lite.duckduckgo.com/lite");
}));
}
if (App::GetApp()->m_install.Get()) {
if (App::GetFtpEnable()) {
options->Add(std::make_shared<SidebarEntryCallback>("Ftp Install"_i18n, [](){
App::Push(std::make_shared<menu::ftp::Menu>());
}));
}
options->Add(std::make_shared<SidebarEntryCallback>("Usb Install"_i18n, [](){
App::Push(std::make_shared<menu::usb::Menu>());
}));
options->Add(std::make_shared<SidebarEntryCallback>("GameCard Install"_i18n, [](){
App::Push(std::make_shared<menu::gc::Menu>());
}));
}
options->Add(std::make_shared<SidebarEntryCallback>("Misc"_i18n, [](){
App::DisplayMiscOptions();
}));
options->Add(std::make_shared<SidebarEntryCallback>("Advanced"_i18n, [this](){
auto options = std::make_shared<Sidebar>("Advanced Options"_i18n, Sidebar::Side::LEFT);
ON_SCOPE_EXIT(App::Push(options));
SidebarEntryArray::Items text_scroll_speed_items;
text_scroll_speed_items.push_back("Slow"_i18n);
text_scroll_speed_items.push_back("Normal"_i18n);
text_scroll_speed_items.push_back("Fast"_i18n);
options->Add(std::make_shared<SidebarEntryBool>("Logging"_i18n, App::GetLogEnable(), [this](bool& enable){
App::SetLogEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Replace hbmenu on exit"_i18n, App::GetReplaceHbmenuEnable(), [this](bool& enable){
App::SetReplaceHbmenuEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryArray>("Text scroll speed"_i18n, text_scroll_speed_items, [this](s64& index_out){
App::SetTextScrollSpeed(index_out);
}, (s64)App::GetTextScrollSpeed()));
options->Add(std::make_shared<SidebarEntryCallback>("Install options"_i18n, [this](){
auto options = std::make_shared<Sidebar>("Install Options"_i18n, Sidebar::Side::LEFT);
ON_SCOPE_EXIT(App::Push(options));
SidebarEntryArray::Items install_items;
install_items.push_back("System memory"_i18n);
install_items.push_back("microSD card"_i18n);
options->Add(std::make_shared<SidebarEntryBool>("Enable"_i18n, App::GetInstallEnable(), [this](bool& enable){
App::SetInstallEnable(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Show install warning"_i18n, App::GetInstallPrompt(), [this](bool& enable){
App::SetInstallPrompt(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryArray>("Install location"_i18n, install_items, [this](s64& index_out){
App::SetInstallSdEnable(index_out);
}, (s64)App::GetInstallSdEnable()));
options->Add(std::make_shared<SidebarEntryBool>("Allow downgrade"_i18n, App::GetApp()->m_allow_downgrade.Get(), [this](bool& enable){
App::GetApp()->m_allow_downgrade.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip if already installed"_i18n, App::GetApp()->m_skip_if_already_installed.Get(), [this](bool& enable){
App::GetApp()->m_skip_if_already_installed.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Ticket only"_i18n, App::GetApp()->m_ticket_only.Get(), [this](bool& enable){
App::GetApp()->m_ticket_only.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip base"_i18n, App::GetApp()->m_skip_base.Get(), [this](bool& enable){
App::GetApp()->m_skip_base.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip Patch"_i18n, App::GetApp()->m_skip_patch.Get(), [this](bool& enable){
App::GetApp()->m_skip_patch.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip addon"_i18n, App::GetApp()->m_skip_addon.Get(), [this](bool& enable){
App::GetApp()->m_skip_addon.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip data patch"_i18n, App::GetApp()->m_skip_data_patch.Get(), [this](bool& enable){
App::GetApp()->m_skip_data_patch.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip ticket"_i18n, App::GetApp()->m_skip_ticket.Get(), [this](bool& enable){
App::GetApp()->m_skip_ticket.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("skip NCA hash verify"_i18n, App::GetApp()->m_skip_nca_hash_verify.Get(), [this](bool& enable){
App::GetApp()->m_skip_nca_hash_verify.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip RSA header verify"_i18n, App::GetApp()->m_skip_rsa_header_fixed_key_verify.Get(), [this](bool& enable){
App::GetApp()->m_skip_rsa_header_fixed_key_verify.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Skip RSA NPDM verify"_i18n, App::GetApp()->m_skip_rsa_npdm_fixed_key_verify.Get(), [this](bool& enable){
App::GetApp()->m_skip_rsa_npdm_fixed_key_verify.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Ignore distribution bit"_i18n, App::GetApp()->m_ignore_distribution_bit.Get(), [this](bool& enable){
App::GetApp()->m_ignore_distribution_bit.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Convert to standard crypto"_i18n, App::GetApp()->m_convert_to_standard_crypto.Get(), [this](bool& enable){
App::GetApp()->m_convert_to_standard_crypto.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Lower master key"_i18n, App::GetApp()->m_lower_master_key.Get(), [this](bool& enable){
App::GetApp()->m_lower_master_key.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
options->Add(std::make_shared<SidebarEntryBool>("Lower system version"_i18n, App::GetApp()->m_lower_system_version.Get(), [this](bool& enable){
App::GetApp()->m_lower_system_version.Set(enable);
}, "Enabled"_i18n, "Disabled"_i18n));
}));
options->Add(std::make_shared<SidebarEntryCallback>("Advanced"_i18n, [](){
App::DisplayAdvancedOptions();
}));
}})
);

47
sphaira/source/ui/menus/themezer.cpp
View File

@@ -375,45 +375,6 @@ Menu::Menu() : MenuBase{"Themezer"_i18n} {
}});
this->SetActions(
std::make_pair(Button::RIGHT, Action{[this](){
const auto& page = m_pages[m_page_index];
if (m_index < (page.m_packList.size() - 1) && (m_index + 1) % 3 != 0) {
SetIndex(m_index + 1);
App::PlaySoundEffect(SoundEffect_Scroll);
log_write("moved right\n");
}
}}),
std::make_pair(Button::LEFT, Action{[this](){
if (m_index != 0 && (m_index % 3) != 0) {
SetIndex(m_index - 1);
App::PlaySoundEffect(SoundEffect_Scroll);
log_write("moved left\n");
}
}}),
std::make_pair(Button::DOWN, Action{[this](){
const auto& page = m_pages[m_page_index];
if (m_list->ScrollDown(m_index, 3, page.m_packList.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
const auto& page = m_pages[m_page_index];
if (m_list->ScrollUp(m_index, 3, page.m_packList.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::R2, Action{[this](){
const auto& page = m_pages[m_page_index];
if (m_list->ScrollDown(m_index, 6, page.m_packList.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::L2, Action{[this](){
const auto& page = m_pages[m_page_index];
if (m_list->ScrollUp(m_index, 6, page.m_packList.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::A, Action{"Download"_i18n, [this](){
App::Push(std::make_shared<OptionBox>(
"Download theme?"_i18n,
@@ -424,7 +385,7 @@ Menu::Menu() : MenuBase{"Themezer"_i18n} {
const auto& entry = page.m_packList[m_index];
const auto url = apiBuildUrlDownloadPack(entry);
App::Push(std::make_shared<ProgressBox>("Installing "_i18n + entry.details.name, [this, &entry](auto pbox){
App::Push(std::make_shared<ProgressBox>(entry.themes[0].preview.lazy_image.image, "Downloading "_i18n, entry.details.name, [this, &entry](auto pbox){
return InstallTheme(pbox, entry);
}, [this, &entry](bool success){
if (success) {
@@ -532,8 +493,8 @@ void Menu::Update(Controller* controller, TouchInfo* touch) {
return;
}
m_list->OnUpdate(controller, touch, page.m_packList.size(), [this](auto i) {
if (m_index == i) {
m_list->OnUpdate(controller, touch, m_index, page.m_packList.size(), [this](bool touch, auto i) {
if (touch && m_index == i) {
FireAction(Button::A);
} else {
App::PlaySoundEffect(SoundEffect_Focus);
@@ -642,7 +603,7 @@ void Menu::Draw(NVGcontext* vg, Theme* theme) {
}
}
gfx::drawImageRounded(vg, x + xoff, y, 320, 180, image.image ? image.image : App::GetDefaultImage());
gfx::drawImage(vg, x + xoff, y, 320, 180, image.image ? image.image : App::GetDefaultImage(), 15);
}
nvgSave(vg);

108
sphaira/source/ui/menus/usb_menu.cpp
View File

@@ -10,8 +10,8 @@
namespace sphaira::ui::menu::usb {
namespace {
constexpr u64 CONNECTION_TIMEOUT = 1e+9 * 3;
constexpr u64 TRANSFER_TIMEOUT = 1e+9 * 5;
constexpr u64 CONNECTION_TIMEOUT = 1e+9 * 1; // 1 second
constexpr u64 TRANSFER_TIMEOUT = 1e+9 * 5; // 5 seconds
void thread_func(void* user) {
auto app = static_cast<Menu*>(user);
@@ -21,17 +21,26 @@ void thread_func(void* user) {
break;
}
const auto rc = app->m_usb_source->WaitForConnection(CONNECTION_TIMEOUT, app->m_usb_speed, app->m_usb_count);
const auto rc = app->m_usb_source->IsUsbConnected(CONNECTION_TIMEOUT);
// set connected status
mutexLock(&app->m_mutex);
ON_SCOPE_EXIT(mutexUnlock(&app->m_mutex));
if (R_SUCCEEDED(rc)) {
app->m_state = State::Connected_WaitForFileList;
} else {
app->m_state = State::None;
}
mutexUnlock(&app->m_mutex);
if (R_SUCCEEDED(rc)) {
app->m_state = State::Connected;
break;
} else if (R_FAILED(rc) && R_VALUE(rc) != 0xEA01) {
log_write("got: 0x%X value: 0x%X\n", rc, R_VALUE(rc));
app->m_state = State::Failed;
break;
std::vector<std::string> names;
if (R_SUCCEEDED(app->m_usb_source->WaitForConnection(CONNECTION_TIMEOUT, names))) {
mutexLock(&app->m_mutex);
ON_SCOPE_EXIT(mutexUnlock(&app->m_mutex));
app->m_state = State::Connected_StartingTransfer;
app->m_names = names;
break;
}
}
}
}
@@ -43,6 +52,10 @@ Menu::Menu() : MenuBase{"USB"_i18n} {
SetPop();
}});
SetAction(Button::X, Action{"Options"_i18n, [this](){
App::DisplayInstallOptions(false);
}});
// if mtp is enabled, disable it for now.
m_was_mtp_enabled = App::GetMtpEnable();
if (m_was_mtp_enabled) {
@@ -91,54 +104,36 @@ void Menu::Update(Controller* controller, TouchInfo* touch) {
mutexLock(&m_mutex);
ON_SCOPE_EXIT(mutexUnlock(&m_mutex));
switch (m_state) {
case State::None:
break;
if (m_state == State::Connected_StartingTransfer) {
log_write("set to progress\n");
m_state = State::Progress;
log_write("got connection\n");
App::Push(std::make_shared<ui::ProgressBox>(0, "Installing "_i18n, "", [this](auto pbox) mutable -> bool {
ON_SCOPE_EXIT(m_usb_source->Finished());
case State::Connected:
log_write("set to progress\n");
m_state = State::Progress;
log_write("got connection\n");
App::Push(std::make_shared<ui::ProgressBox>("Installing App"_i18n, [this](auto pbox) mutable -> bool {
log_write("inside progress box\n");
for (u32 i = 0; i < m_usb_count; i++) {
std::string file_name;
u64 file_size;
if (R_FAILED(m_usb_source->GetFileInfo(file_name, file_size))) {
return false;
}
log_write("inside progress box\n");
for (const auto& file_name : m_names) {
m_usb_source->SetFileNameForTranfser(file_name);
log_write("got file name: %s size: %lX\n", file_name.c_str(), file_size);
const auto rc = yati::InstallFromSource(pbox, m_usb_source, file_name);
if (R_FAILED(rc)) {
return false;
}
App::Notify("Installed via usb"_i18n);
m_usb_source->Finished();
const auto rc = yati::InstallFromSource(pbox, m_usb_source, file_name);
if (R_FAILED(rc)) {
return false;
}
return true;
}, [this](bool result){
if (result) {
App::Notify("Usb install success!"_i18n);
m_state = State::Done;
} else {
App::Notify("Usb install failed!"_i18n);
m_state = State::Failed;
}
}));
break;
App::Notify("Installed via usb"_i18n);
}
case State::Progress:
break;
case State::Done:
break;
case State::Failed:
break;
return true;
}, [this](bool result){
if (result) {
App::Notify("Usb install success!"_i18n);
m_state = State::Done;
SetPop();
} else {
App::Notify("Usb install failed!"_i18n);
m_state = State::Failed;
}
}));
}
}
@@ -153,7 +148,12 @@ void Menu::Draw(NVGcontext* vg, Theme* theme) {
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Waiting for connection..."_i18n.c_str());
break;
case State::Connected:
case State::Connected_WaitForFileList:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Connected, waiting for file list..."_i18n.c_str());
break;
case State::Connected_StartingTransfer:
gfx::drawTextArgs(vg, SCREEN_WIDTH / 2.f, SCREEN_HEIGHT / 2.f, 36.f, NVG_ALIGN_CENTER | NVG_ALIGN_MIDDLE, theme->GetColour(ThemeEntryID_TEXT_INFO), "Connected, starting transfer..."_i18n.c_str());
break;
case State::Progress:

44
sphaira/source/ui/nvg_util.cpp
View File

@@ -34,24 +34,16 @@ constexpr std::array buttons = {
};
// NEW ---------------------
void drawRectIntenal(NVGcontext* vg, const Vec4& v, const NVGcolor& c, bool rounded) {
void drawRectIntenal(NVGcontext* vg, const Vec4& v, const NVGcolor& c, float rounded) {
nvgBeginPath(vg);
if (rounded) {
nvgRoundedRect(vg, v.x, v.y, v.w, v.h, 15);
} else {
nvgRect(vg, v.x, v.y, v.w, v.h);
}
nvgRoundedRect(vg, v.x, v.y, v.w, v.h, rounded);
nvgFillColor(vg, c);
nvgFill(vg);
}
void drawRectIntenal(NVGcontext* vg, const Vec4& v, const NVGpaint& p, bool rounded) {
void drawRectIntenal(NVGcontext* vg, const Vec4& v, const NVGpaint& p, float rounded) {
nvgBeginPath(vg);
if (rounded) {
nvgRoundedRect(vg, v.x, v.y, v.w, v.h, 15);
} else {
nvgRect(vg, v.x, v.y, v.w, v.h);
}
nvgRoundedRect(vg, v.x, v.y, v.w, v.h, rounded);
nvgFillPaint(vg, p);
nvgFill(vg);
}
@@ -164,25 +156,13 @@ void drawTextArgs(NVGcontext* vg, float x, float y, float size, int align, const
drawText(vg, x, y, size, buffer, nullptr, align, c);
}
void drawImage(NVGcontext* vg, const Vec4& v, int texture) {
void drawImage(NVGcontext* vg, const Vec4& v, int texture, float rounded) {
const auto paint = nvgImagePattern(vg, v.x, v.y, v.w, v.h, 0, texture, 1.f);
drawRect(vg, v, paint, false);
drawRect(vg, v, paint, rounded);
}
void drawImage(NVGcontext* vg, float x, float y, float w, float h, int texture) {
drawImage(vg, Vec4(x, y, w, h), texture);
}
void drawImageRounded(NVGcontext* vg, const Vec4& v, int texture) {
const auto paint = nvgImagePattern(vg, v.x, v.y, v.w, v.h, 0, texture, 1.f);
nvgBeginPath(vg);
nvgRoundedRect(vg, v.x, v.y, v.w, v.h, 15);
nvgFillPaint(vg, paint);
nvgFill(vg);
}
void drawImageRounded(NVGcontext* vg, float x, float y, float w, float h, int texture) {
drawImageRounded(vg, Vec4(x, y, w, h), texture);
void drawImage(NVGcontext* vg, float x, float y, float w, float h, int texture, float rounded) {
drawImage(vg, Vec4(x, y, w, h), texture, rounded);
}
void drawTextBox(NVGcontext* vg, float x, float y, float size, float bound, const NVGcolor& c, const char* str, int align, const char* end) {
@@ -208,19 +188,19 @@ void dimBackground(NVGcontext* vg) {
drawRectIntenal(vg, {0.f,0.f,SCREEN_WIDTH,SCREEN_HEIGHT}, nvgRGBA(0, 0, 0, 180), false);
}
void drawRect(NVGcontext* vg, float x, float y, float w, float h, const NVGcolor& c, bool rounded) {
void drawRect(NVGcontext* vg, float x, float y, float w, float h, const NVGcolor& c, float rounded) {
drawRectIntenal(vg, {x,y,w,h}, c, rounded);
}
void drawRect(NVGcontext* vg, const Vec4& v, const NVGcolor& c, bool rounded) {
void drawRect(NVGcontext* vg, const Vec4& v, const NVGcolor& c, float rounded) {
drawRectIntenal(vg, v, c, rounded);
}
void drawRect(NVGcontext* vg, float x, float y, float w, float h, const NVGpaint& p, bool rounded) {
void drawRect(NVGcontext* vg, float x, float y, float w, float h, const NVGpaint& p, float rounded) {
drawRectIntenal(vg, {x,y,w,h}, p, rounded);
}
void drawRect(NVGcontext* vg, const Vec4& v, const NVGpaint& p, bool rounded) {
void drawRect(NVGcontext* vg, const Vec4& v, const NVGpaint& p, float rounded) {
drawRectIntenal(vg, v, p, rounded);
}

16
sphaira/source/ui/popup_list.cpp
View File

@@ -62,16 +62,6 @@ PopupList::PopupList(std::string title, Items items, Callback cb, s64 index)
, m_callback{cb}
, m_index{index} {
this->SetActions(
std::make_pair(Button::DOWN, Action{[this](){
if (m_list->ScrollDown(m_index, 1, m_items.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
if (m_list->ScrollUp(m_index, 1, m_items.size())) {
SetIndex(m_index);
}
}}),
std::make_pair(Button::A, Action{"Select"_i18n, [this](){
if (m_callback) {
m_callback(m_index);
@@ -103,9 +93,11 @@ PopupList::PopupList(std::string title, Items items, Callback cb, s64 index)
auto PopupList::Update(Controller* controller, TouchInfo* touch) -> void {
Widget::Update(controller, touch);
m_list->OnUpdate(controller, touch, m_items.size(), [this](auto i) {
m_list->OnUpdate(controller, touch, m_index, m_items.size(), [this](bool touch, auto i) {
SetIndex(i);
FireAction(Button::A);
if (touch) {
FireAction(Button::A);
}
});
}

107
sphaira/source/ui/progress_box.cpp
View File

@@ -5,6 +5,7 @@
#include "defines.hpp"
#include "log.hpp"
#include "i18n.hpp"
#include <cstring>
namespace sphaira::ui {
namespace {
@@ -17,7 +18,7 @@ void threadFunc(void* arg) {
} // namespace
ProgressBox::ProgressBox(const std::string& title, ProgressBoxCallback callback, ProgressBoxDoneCallback done, int cpuid, int prio, int stack_size) {
ProgressBox::ProgressBox(int image, const std::string& action, const std::string& title, ProgressBoxCallback callback, ProgressBoxDoneCallback done, int cpuid, int prio, int stack_size) {
SetAction(Button::B, Action{"Back"_i18n, [this](){
App::Push(std::make_shared<OptionBox>("Are you sure you wish to cancel?"_i18n, "No"_i18n, "Yes"_i18n, 1, [this](auto op_index){
if (op_index && *op_index) {
@@ -27,11 +28,6 @@ ProgressBox::ProgressBox(const std::string& title, ProgressBoxCallback callback,
}));
}});
m_pos.w = 770.f;
m_pos.h = 430.f;
m_pos.x = 255;
m_pos.y = 145;
m_pos.w = 770.f;
m_pos.h = 295.f;
m_pos.x = (SCREEN_WIDTH / 2.f) - (m_pos.w / 2.f);
@@ -39,6 +35,8 @@ ProgressBox::ProgressBox(const std::string& title, ProgressBoxCallback callback,
m_done = done;
m_title = title;
m_action = action;
m_image = image;
m_thread_data.pbox = this;
m_thread_data.callback = callback;
@@ -60,6 +58,7 @@ ProgressBox::~ProgressBox() {
log_write("failed to close thread\n");
}
FreeImage();
m_done(m_thread_data.result);
}
@@ -73,12 +72,28 @@ auto ProgressBox::Update(Controller* controller, TouchInfo* touch) -> void {
auto ProgressBox::Draw(NVGcontext* vg, Theme* theme) -> void {
mutexLock(&m_mutex);
std::vector<u8> image_data{};
std::swap(m_image_data, image_data);
if (m_timestamp.GetSeconds()) {
m_timestamp.Update();
m_speed = m_offset - m_last_offset;
m_last_offset = m_offset;
}
const auto title = m_title;
const auto transfer = m_transfer;
const auto size = m_size;
const auto offset = m_offset;
const auto speed = m_speed;
const auto last_offset = m_last_offset;
mutexUnlock(&m_mutex);
if (!image_data.empty()) {
FreeImage();
m_image = nvgCreateImageMem(vg, 0, image_data.data(), image_data.size());
m_own_image = true;
}
gfx::dimBackground(vg);
gfx::drawRect(vg, m_pos, theme->GetColour(ThemeEntryID_POPUP));
@@ -86,20 +101,62 @@ auto ProgressBox::Draw(NVGcontext* vg, Theme* theme) -> void {
// const Vec4 box = { 255, 145, 770, 430 };
const auto center_x = m_pos.x + m_pos.w/2;
const auto end_y = m_pos.y + m_pos.h;
const Vec4 prog_bar = { 400, end_y - 80, 480, 12 };
const auto progress_bar_w = m_pos.w - 230;
const Vec4 prog_bar = { center_x - progress_bar_w / 2, end_y - 100, progress_bar_w, 12 };
nvgSave(vg);
nvgIntersectScissor(vg, GetX(), GetY(), GetW(), GetH());
if (m_image) {
gfx::drawImage(vg, GetX() + 30, GetY() + 30, 128, 128, m_image, 10);
}
// shapes.
if (offset && size) {
gfx::drawRect(vg, prog_bar, theme->GetColour(ThemeEntryID_PROGRESSBAR_BACKGROUND));
const auto font_size = 18.F;
const auto pad = 15.F;
const float rounding = 5;
gfx::drawRect(vg, prog_bar, theme->GetColour(ThemeEntryID_PROGRESSBAR_BACKGROUND), rounding);
const u32 percentage = ((double)offset / (double)size) * 100.0;
gfx::drawRect(vg, prog_bar.x, prog_bar.y, ((float)offset / (float)size) * prog_bar.w, prog_bar.h, theme->GetColour(ThemeEntryID_PROGRESSBAR));
gfx::drawTextArgs(vg, prog_bar.x + prog_bar.w + 10, prog_bar.y, 20, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "%u%%", percentage);
gfx::drawRect(vg, prog_bar.x, prog_bar.y, ((float)offset / (float)size) * prog_bar.w, prog_bar.h, theme->GetColour(ThemeEntryID_PROGRESSBAR), rounding);
gfx::drawTextArgs(vg, prog_bar.x + prog_bar.w + pad, prog_bar.y, font_size, NVG_ALIGN_LEFT | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "%u%%", percentage);
const double speed_mb = (double)speed / (1024.0 * 1024.0);
const double speed_kb = (double)speed / (1024.0);
char speed_str[32];
if (speed_mb >= 0.01) {
std::snprintf(speed_str, sizeof(speed_str), "%.2f MiB/s", speed_mb);
} else {
std::snprintf(speed_str, sizeof(speed_str), "%.2f KiB/s", speed_kb);
}
const auto left = size - last_offset;
const auto left_seconds = left / speed;
const auto hours = left_seconds / (60 * 60);
const auto minutes = left_seconds % (60 * 60) / 60;
const auto seconds = left_seconds % 60;
char time_str[64];
if (hours) {
std::snprintf(time_str, sizeof(time_str), "%zu hours %zu minutes remaining", hours, minutes);
} else if (minutes) {
std::snprintf(time_str, sizeof(time_str), "%zu minutes %zu seconds remaining", minutes, seconds);
} else {
std::snprintf(time_str, sizeof(time_str), "%zu seconds remaining", seconds);
}
gfx::drawTextArgs(vg, center_x, prog_bar.y + prog_bar.h + 30, 18, NVG_ALIGN_CENTER | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), "%s (%s)", time_str, speed_str);
}
gfx::drawTextArgs(vg, center_x, m_pos.y + 60, 25, NVG_ALIGN_CENTER | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), title.c_str());
gfx::drawTextArgs(vg, center_x, m_pos.y + 40, 24, NVG_ALIGN_CENTER | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), m_action.c_str());
gfx::drawTextArgs(vg, center_x, m_pos.y + 100, 22, NVG_ALIGN_CENTER | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT), title.c_str());
if (!transfer.empty()) {
gfx::drawTextArgs(vg, center_x, prog_bar.y - 15 - 20 * 1.5F, 20, NVG_ALIGN_CENTER, theme->GetColour(ThemeEntryID_TEXT), "%s", transfer.c_str());
gfx::drawTextArgs(vg, center_x, m_pos.y + 150, 18, NVG_ALIGN_CENTER | NVG_ALIGN_TOP, theme->GetColour(ThemeEntryID_TEXT_INFO), "%s", transfer.c_str());
}
nvgRestore(vg);
}
auto ProgressBox::SetTitle(const std::string& title) -> ProgressBox& {
@@ -115,6 +172,8 @@ auto ProgressBox::NewTransfer(const std::string& transfer) -> ProgressBox& {
m_transfer = transfer;
m_size = 0;
m_offset = 0;
m_last_offset = 0;
m_timestamp.Update();
mutexUnlock(&m_mutex);
Yield();
return *this;
@@ -129,6 +188,21 @@ auto ProgressBox::UpdateTransfer(s64 offset, s64 size) -> ProgressBox& {
return *this;
}
auto ProgressBox::SetImageData(std::vector<u8>& data) -> ProgressBox& {
mutexLock(&m_mutex);
std::swap(m_image_data, data);
mutexUnlock(&m_mutex);
return *this;
}
auto ProgressBox::SetImageDataConst(std::span<const u8> data) -> ProgressBox& {
mutexLock(&m_mutex);
m_image_data.resize(data.size());
std::memcpy(m_image_data.data(), data.data(), m_image_data.size());
mutexUnlock(&m_mutex);
return *this;
}
void ProgressBox::RequestExit() {
m_stop_source.request_stop();
}
@@ -184,4 +258,13 @@ void ProgressBox::Yield() {
svcSleepThread(YieldType_WithoutCoreMigration);
}
void ProgressBox::FreeImage() {
if (m_image && m_own_image) {
nvgDeleteImage(App::GetVg(), m_image);
}
m_image = 0;
m_own_image = false;
}
} // namespace sphaira::ui

18
sphaira/source/ui/sidebar.cpp
View File

@@ -259,9 +259,11 @@ auto Sidebar::Update(Controller* controller, TouchInfo* touch) -> void {
if (touch->is_clicked && !touch->in_range(GetPos())) {
App::PopToMenu();
} else {
m_list->OnUpdate(controller, touch, m_items.size(), [this](auto i) {
m_list->OnUpdate(controller, touch, m_index, m_items.size(), [this](bool touch, auto i) {
SetIndex(i);
FireAction(Button::A);
if (touch) {
FireAction(Button::A);
}
});
}
@@ -334,18 +336,6 @@ void Sidebar::SetupButtons() {
// add default actions, overriding if needed.
this->SetActions(
std::make_pair(Button::DOWN, Action{[this](){
auto index = m_index;
if (m_list->ScrollDown(index, 1, m_items.size())) {
SetIndex(index);
}
}}),
std::make_pair(Button::UP, Action{[this](){
auto index = m_index;
if (m_list->ScrollUp(index, 1, m_items.size())) {
SetIndex(index);
}
}}),
// each item has it's own Action, but we take over B
std::make_pair(Button::B, Action{"Back"_i18n, [this](){
SetPop();

54
sphaira/source/web.cpp
View File

@@ -1,54 +0,0 @@
#include "web.hpp"
#include "log.hpp"
#include "defines.hpp"
#include <cstring>
namespace sphaira {
auto WebShow(const std::string& url, bool show_error) -> Result {
// showError("Running in applet mode\nPlease launch hbmenu by holding R on an APP (e.g. a game) NOT an applet (e.g. Gallery)", "", 0);
// showError("Error: Nag active, check more details", "Browser won't launch if supernag is active\n\nUse gagorder or switch-sys-tweak (the latter is bundled with BrowseNX) to disable supernag.", 0);
// log_write("web show with url: %s\n", url.c_str());
// return 0;
WebCommonConfig config{};
WebCommonReply reply{};
WebExitReason reason{};
AccountUid account_uid{};
char last_url[FS_MAX_PATH]{};
size_t last_url_len{};
// WebBackgroundKind_Unknown1 = shows background
// WebBackgroundKind_Unknown2 = shows background faded
if (R_FAILED(accountTrySelectUserWithoutInteraction(&account_uid, false))) { log_write("failed: accountTrySelectUserWithoutInteraction\n"); }
if (R_FAILED(webPageCreate(&config, url.c_str()))) { log_write("failed: webPageCreate\n"); }
if (R_FAILED(webConfigSetWhitelist(&config, "^http"))) { log_write("failed: webConfigSetWhitelist\n"); }
if (R_FAILED(webConfigSetEcClientCert(&config, true))) { log_write("failed: webConfigSetEcClientCert\n"); }
if (R_FAILED(webConfigSetScreenShot(&config, true))) { log_write("failed: webConfigSetScreenShot\n"); }
if (R_FAILED(webConfigSetBootDisplayKind(&config, WebBootDisplayKind_Black))) { log_write("failed: webConfigSetBootDisplayKind\n"); }
if (R_FAILED(webConfigSetBackgroundKind(&config, WebBackgroundKind_Default))) { log_write("failed: webConfigSetBackgroundKind\n"); }
if (R_FAILED(webConfigSetPointer(&config, true))) { log_write("failed: webConfigSetPointer\n"); }
if (R_FAILED(webConfigSetLeftStickMode(&config, WebLeftStickMode_Pointer))) { log_write("failed: webConfigSetLeftStickMode\n"); }
// if (R_FAILED(webConfigSetBootAsMediaPlayer(&config, true))) { log_write("failed: webConfigSetBootAsMediaPlayer\n"); }
if (R_FAILED(webConfigSetJsExtension(&config, true))) { log_write("failed: webConfigSetJsExtension\n"); }
if (R_FAILED(webConfigSetMediaPlayerAutoClose(&config, true))) { log_write("failed: webConfigSetMediaPlayerAutoClose\n"); }
if (R_FAILED(webConfigSetPageCache(&config, true))) { log_write("failed: webConfigSetPageCache\n"); }
if (R_FAILED(webConfigSetFooterFixedKind(&config, WebFooterFixedKind_Hidden))) { log_write("failed: webConfigSetFooterFixedKind\n"); }
if (R_FAILED(webConfigSetPageFade(&config, true))) { log_write("failed: webConfigSetPageFade\n"); }
if (R_FAILED(webConfigSetPageScrollIndicator(&config, true))) { log_write("failed: webConfigSetPageScrollIndicator\n"); }
// if (R_FAILED(webConfigSetMediaPlayerSpeedControl(&config, true))) { log_write("failed: webConfigSetMediaPlayerSpeedControl\n"); }
if (R_FAILED(webConfigSetBootMode(&config, WebSessionBootMode_AllForeground))) { log_write("failed: webConfigSetBootMode\n"); }
if (R_FAILED(webConfigSetTransferMemory(&config, true))) { log_write("failed: webConfigSetTransferMemory\n"); }
if (R_FAILED(webConfigSetTouchEnabledOnContents(&config, true))) { log_write("failed: webConfigSetTouchEnabledOnContents\n"); }
// if (R_FAILED(webConfigSetMediaPlayerUi(&config, true))) { log_write("failed: webConfigSetMediaPlayerUi\n"); }
// if (R_FAILED(webConfigSetWebAudio(&config, true))) { log_write("failed: webConfigSetWebAudio\n"); }
if (R_FAILED(webConfigSetPageCache(&config, true))) { log_write("failed: webConfigSetPageCache\n"); }
if (R_FAILED(webConfigSetBootLoadingIcon(&config, true))) { log_write("failed: webConfigSetBootLoadingIcon\n"); }
if (R_FAILED(webConfigSetUid(&config, account_uid))) { log_write("failed: webConfigSetUid\n"); }
if (R_FAILED(webConfigShow(&config, &reply))) { log_write("failed: webConfigShow\n"); }
if (R_FAILED(webReplyGetExitReason(&reply, &reason))) { log_write("failed: webReplyGetExitReason\n"); }
if (R_FAILED(webReplyGetLastUrl(&reply, last_url, sizeof(last_url), &last_url_len))) { log_write("failed: webReplyGetLastUrl\n"); }
log_write("last url: %s\n", last_url);
R_SUCCEED();
}
} // namespace sphaira

26
sphaira/source/yati/nx/nca.cpp
View File

@@ -151,4 +151,30 @@ Result VerifyFixedKey(const Header& header) {
R_SUCCEED();
}
auto GetKeyGenStr(u8 key_gen) -> const char* {
switch (key_gen) {
case KeyGenerationOld_100: return "1.0.0";
case KeyGenerationOld_300: return "3.0.0";
case KeyGeneration_301: return "3.0.1";
case KeyGeneration_400: return "4.0.0";
case KeyGeneration_500: return "5.0.0";
case KeyGeneration_600: return "6.0.0";
case KeyGeneration_620: return "6.2.0";
case KeyGeneration_700: return "7.0.0";
case KeyGeneration_810: return "8.1.0";
case KeyGeneration_900: return "9.0.0";
case KeyGeneration_910: return "9.1.0";
case KeyGeneration_1210: return "12.1.0";
case KeyGeneration_1300: return "13.0.0";
case KeyGeneration_1400: return "14.0.0";
case KeyGeneration_1500: return "15.0.0";
case KeyGeneration_1600: return "16.0.0";
case KeyGeneration_1700: return "17.0.0";
case KeyGeneration_1800: return "18.0.0";
case KeyGeneration_1900: return "19.0.0";
}
return "Unknown";
}
} // namespace sphaira::nca

20
sphaira/source/yati/nx/ncm.cpp
View File

@@ -7,16 +7,24 @@ namespace {
} // namespace
auto GetAppId(const NcmContentMetaKey& key) -> u64 {
if (key.type == NcmContentMetaType_Patch) {
return key.id ^ 0x800;
} else if (key.type == NcmContentMetaType_AddOnContent) {
return (key.id ^ 0x1000) & ~0xFFF;
auto GetAppId(u8 meta_type, u64 id) -> u64 {
if (meta_type == NcmContentMetaType_Patch) {
return id ^ 0x800;
} else if (meta_type == NcmContentMetaType_AddOnContent) {
return (id ^ 0x1000) & ~0xFFF;
} else {
return key.id;
return id;
}
}
auto GetAppId(const NcmContentMetaKey& key) -> u64 {
return GetAppId(key.type, key.id);
}
auto GetAppId(const PackagedContentMeta& meta) -> u64 {
return GetAppId(meta.meta_type, meta.title_id);
}
Result Delete(NcmContentStorage* cs, const NcmContentId *content_id) {
bool has;
R_TRY(ncmContentStorageHas(cs, std::addressof(has), content_id));

251
sphaira/source/yati/source/usb.cpp
View File

@@ -14,33 +14,58 @@
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*/
// Most of the usb transfer code was taken from Haze.
// The USB transfer code was taken from Haze (part of Atmosphere).
// The USB protocol was taken from Tinfoil, by Adubbz.
#include "yati/source/usb.hpp"
#include "log.hpp"
#include <ranges>
namespace sphaira::yati::source {
namespace {
constexpr u32 MAGIC = 0x53504841;
constexpr u32 VERSION = 2;
struct SendHeader {
u32 magic;
u32 version;
enum USBCmdType : u8 {
REQUEST = 0,
RESPONSE = 1
};
struct RecvHeader {
u32 magic;
u32 version;
u32 bcdUSB;
u32 count;
enum USBCmdId : u32 {
EXIT = 0,
FILE_RANGE = 1
};
struct NX_PACKED USBCmdHeader {
u32 magic;
USBCmdType type;
u8 padding[0x3] = {0};
u32 cmdId;
u64 dataSize;
u8 reserved[0xC] = {0};
};
struct FileRangeCmdHeader {
u64 size;
u64 offset;
u64 nspNameLen;
u64 padding;
};
struct TUSHeader {
u32 magic; // TUL0 (Tinfoil Usb List 0)
u32 nspListSize;
u64 padding;
};
static_assert(sizeof(TUSHeader) == 0x10, "TUSHeader must be 0x10!");
static_assert(sizeof(USBCmdHeader) == 0x20, "USBCmdHeader must be 0x20!");
} // namespace
Usb::Usb(u64 transfer_timeout) {
m_open_result = usbDsInitialize();
m_transfer_timeout = transfer_timeout;
// this avoids allocations during transfers.
m_aligned.reserve(1024 * 1024 * 16);
}
Usb::~Usb() {
@@ -53,6 +78,11 @@ Result Usb::Init() {
log_write("doing USB init\n");
R_TRY(m_open_result);
SetSysSerialNumber serial_number;
R_TRY(setsysInitialize());
ON_SCOPE_EXIT(setsysExit());
R_TRY(setsysGetSerialNumber(&serial_number));
u8 iManufacturer, iProduct, iSerialNumber;
static const u16 supported_langs[1] = {0x0409};
// Send language descriptor
@@ -62,7 +92,7 @@ Result Usb::Init() {
// Send product
R_TRY(usbDsAddUsbStringDescriptor(&iProduct, "Nintendo Switch"));
// Send serial number
R_TRY(usbDsAddUsbStringDescriptor(&iSerialNumber, "SerialNumber"));
R_TRY(usbDsAddUsbStringDescriptor(&iSerialNumber, serial_number.number));
// Send device descriptors
struct usb_device_descriptor device_descriptor = {
@@ -131,13 +161,11 @@ Result Usb::Init() {
.bInterfaceProtocol = USB_CLASS_VENDOR_SPEC,
};
struct usb_endpoint_descriptor endpoint_descriptor_in = {
.bLength = USB_DT_ENDPOINT_SIZE,
.bDescriptorType = USB_DT_ENDPOINT,
.bEndpointAddress = USB_ENDPOINT_IN,
.bmAttributes = USB_TRANSFER_TYPE_BULK,
.wMaxPacketSize = 0x40,
};
struct usb_endpoint_descriptor endpoint_descriptor_out = {
@@ -145,7 +173,6 @@ Result Usb::Init() {
.bDescriptorType = USB_DT_ENDPOINT,
.bEndpointAddress = USB_ENDPOINT_OUT,
.bmAttributes = USB_TRANSFER_TYPE_BULK,
.wMaxPacketSize = 0x40,
};
const struct usb_ss_endpoint_companion_descriptor endpoint_companion = {
@@ -163,6 +190,8 @@ Result Usb::Init() {
endpoint_descriptor_out.bEndpointAddress += interface_descriptor.bInterfaceNumber + 1;
// Full Speed Config
endpoint_descriptor_in.wMaxPacketSize = 0x40;
endpoint_descriptor_out.wMaxPacketSize = 0x40;
R_TRY(usbDsInterface_AppendConfigurationData(m_interface, UsbDeviceSpeed_Full, &interface_descriptor, USB_DT_INTERFACE_SIZE));
R_TRY(usbDsInterface_AppendConfigurationData(m_interface, UsbDeviceSpeed_Full, &endpoint_descriptor_in, USB_DT_ENDPOINT_SIZE));
R_TRY(usbDsInterface_AppendConfigurationData(m_interface, UsbDeviceSpeed_Full, &endpoint_descriptor_out, USB_DT_ENDPOINT_SIZE));
@@ -194,62 +223,38 @@ Result Usb::Init() {
R_SUCCEED();
}
Result Usb::WaitForConnection(u64 timeout, u32& speed, u32& count) {
const SendHeader send_header{
.magic = MAGIC,
.version = VERSION,
};
Result Usb::IsUsbConnected(u64 timeout) const {
return usbDsWaitReady(timeout);
}
alignas(0x1000) u8 aligned[0x1000]{};
std::memcpy(aligned, std::addressof(send_header), sizeof(send_header));
Result Usb::WaitForConnection(u64 timeout, std::vector<std::string>& out_names) {
TUSHeader header;
R_TRY(TransferAll(true, &header, sizeof(header), timeout));
R_UNLESS(header.magic == 0x304C5554, Result_BadMagic);
R_UNLESS(header.nspListSize > 0, Result_BadCount);
log_write("USB got header\n");
// send header.
u32 transferredSize;
R_TRY(TransferPacketImpl(false, aligned, sizeof(send_header), &transferredSize, timeout));
std::vector<char> names(header.nspListSize);
R_TRY(TransferAll(true, names.data(), names.size(), timeout));
// receive header.
struct RecvHeader recv_header{};
R_TRY(TransferPacketImpl(true, aligned, sizeof(recv_header), &transferredSize, timeout));
out_names.clear();
for (const auto& name : std::views::split(names, '\n')) {
if (!name.empty()) {
out_names.emplace_back(name.data(), name.size());
}
}
// copy data into header struct.
std::memcpy(&recv_header, aligned, sizeof(recv_header));
for (auto& name : out_names) {
log_write("got name: %s\n", name.c_str());
}
// validate received header.
R_UNLESS(recv_header.magic == MAGIC, Result_BadMagic);
R_UNLESS(recv_header.version == VERSION, Result_BadVersion);
R_UNLESS(recv_header.count > 0, Result_BadCount);
count = recv_header.count;
speed = recv_header.bcdUSB;
R_UNLESS(!out_names.empty(), Result_BadCount);
log_write("USB SUCCESS\n");
R_SUCCEED();
}
Result Usb::GetFileInfo(std::string& name_out, u64& size_out) {
struct {
u64 size;
u64 name_length;
} file_info_meta;
alignas(0x1000) u8 aligned[0x1000]{};
// receive meta.
u32 transferredSize;
R_TRY(TransferPacketImpl(true, aligned, sizeof(file_info_meta), &transferredSize, m_transfer_timeout));
std::memcpy(&file_info_meta, aligned, sizeof(file_info_meta));
R_UNLESS(file_info_meta.name_length < sizeof(aligned), 0x1);
R_TRY(TransferPacketImpl(true, aligned, file_info_meta.name_length, &transferredSize, m_transfer_timeout));
name_out.resize(file_info_meta.name_length);
std::memcpy(name_out.data(), aligned, name_out.size());
size_out = file_info_meta.size;
R_SUCCEED();
}
bool Usb::GetConfigured() const {
UsbState usb_state;
usbDsGetState(std::addressof(usb_state));
return usb_state == UsbState_Configured;
void Usb::SetFileNameForTranfser(const std::string& name) {
m_transfer_file_name = name;
}
Event *Usb::GetCompletionEvent(UsbSessionEndpoint ep) const {
@@ -286,12 +291,7 @@ Result Usb::TransferPacketImpl(bool read, void *page, u32 size, u32 *out_size_tr
u32 urb_id;
/* If we're not configured yet, wait to become configured first. */
// R_TRY(usbDsWaitReady(timeout));
if (!GetConfigured()) {
R_TRY(eventWait(usbDsGetStateChangeEvent(), timeout));
R_TRY(eventClear(usbDsGetStateChangeEvent()));
R_THROW(0xEA01);
}
R_TRY(IsUsbConnected(timeout));
/* Select the appropriate endpoint and begin a transfer. */
const auto ep = read ? UsbSessionEndpoint_Out : UsbSessionEndpoint_In;
@@ -304,78 +304,73 @@ Result Usb::TransferPacketImpl(bool read, void *page, u32 size, u32 *out_size_tr
return GetTransferResult(ep, urb_id, nullptr, out_size_transferred);
}
Result Usb::SendCommand(s64 off, s64 size) const {
struct {
u32 hash;
u32 magic;
s64 off;
s64 size;
} meta{0, 0, off, size};
alignas(0x1000) static u8 aligned[0x1000]{};
std::memcpy(aligned, std::addressof(meta), sizeof(meta));
u32 transferredSize;
return TransferPacketImpl(false, aligned, sizeof(meta), &transferredSize, m_transfer_timeout);
}
Result Usb::Finished() const {
return SendCommand(0, 0);
}
Result Usb::InternalRead(void* _buf, s64 off, s64 size) const {
u8* buf = (u8*)_buf;
alignas(0x1000) u8 aligned[0x1000]{};
const auto stored_size = size;
s64 total = 0;
// while it may seem like a bad idea to transfer data to a buffer and copy it
// in practice, this has no impact on performance.
// the switch is *massively* bottlenecked by slow io (nand and sd).
// so making usb transfers zero-copy provides no benefit other than increased
// code complexity and the increase of future bugs if/when sphaira is forked
// an changes are made.
// yati already goes to great lengths to be zero-copy during installing
// by swapping buffers and inflating in-place.
Result Usb::TransferAll(bool read, void *data, u32 size, u64 timeout) {
auto buf = static_cast<u8*>(data);
m_aligned.resize((size + 0xFFF) & ~0xFFF);
while (size) {
auto read_size = size;
auto read_buf = buf;
if (u64(buf) & 0xFFF) {
read_size = std::min<u64>(size, sizeof(aligned) - (u64(buf) & 0xFFF));
read_buf = aligned;
log_write("unaligned read %zd %zd read_size: %zd align: %zd\n", off, size, read_size, u64(buf) & 0xFFF);
} else if (read_size & 0xFFF) {
if (read_size <= 0xFFF) {
log_write("unaligned small read %zd %zd read_size: %zd align: %zd\n", off, size, read_size, u64(buf) & 0xFFF);
read_buf = aligned;
} else {
log_write("unaligned big read %zd %zd read_size: %zd align: %zd\n", off, size, read_size, u64(buf) & 0xFFF);
// read as much as possible into buffer, the rest will
// be handled in a second read which will be aligned size aligned.
read_size = read_size & ~0xFFF;
}
if (!read) {
std::memcpy(m_aligned.data(), buf, size);
}
R_TRY(SendCommand(off, read_size));
u32 out_size_transferred;
R_TRY(TransferPacketImpl(read, m_aligned.data(), size, &out_size_transferred, timeout));
u32 transferredSize{};
R_TRY(TransferPacketImpl(true, read_buf, read_size, &transferredSize, m_transfer_timeout));
R_UNLESS(transferredSize <= read_size, Result_BadTransferSize);
if (read_buf == aligned) {
std::memcpy(buf, aligned, transferredSize);
if (read) {
std::memcpy(buf, m_aligned.data(), out_size_transferred);
}
if (transferredSize < read_size) {
log_write("reading less than expected! %u vs %zd stored: %zd\n", transferredSize, read_size, stored_size);
}
off += transferredSize;
buf += transferredSize;
size -= transferredSize;
total += transferredSize;
buf += out_size_transferred;
size -= out_size_transferred;
}
R_UNLESS(total == stored_size, Result_BadTotalSize);
R_SUCCEED();
}
Result Usb::SendCmdHeader(u32 cmdId, size_t dataSize) {
USBCmdHeader header{
.magic = 0x30435554, // TUC0 (Tinfoil USB Command 0)
.type = USBCmdType::REQUEST,
.cmdId = cmdId,
.dataSize = dataSize,
};
return TransferAll(false, &header, sizeof(header), m_transfer_timeout);
}
Result Usb::SendFileRangeCmd(u64 off, u64 size) {
FileRangeCmdHeader fRangeHeader;
fRangeHeader.size = size;
fRangeHeader.offset = off;
fRangeHeader.nspNameLen = m_transfer_file_name.size();
fRangeHeader.padding = 0;
R_TRY(SendCmdHeader(USBCmdId::FILE_RANGE, sizeof(fRangeHeader) + fRangeHeader.nspNameLen));
R_TRY(TransferAll(false, &fRangeHeader, sizeof(fRangeHeader), m_transfer_timeout));
R_TRY(TransferAll(false, m_transfer_file_name.data(), m_transfer_file_name.size(), m_transfer_timeout));
USBCmdHeader responseHeader;
R_TRY(TransferAll(true, &responseHeader, sizeof(responseHeader), m_transfer_timeout));
R_SUCCEED();
}
Result Usb::Finished() {
return SendCmdHeader(USBCmdId::EXIT, 0);
}
Result Usb::Read(void* buf, s64 off, s64 size, u64* bytes_read) {
R_TRY(GetOpenResult());
R_TRY(InternalRead(buf, off, size));
R_TRY(SendFileRangeCmd(off, size));
R_TRY(TransferAll(true, buf, size, m_transfer_timeout));
*bytes_read = size;
R_SUCCEED();
}

407
sphaira/source/yati/yati.cpp
View File

@@ -18,7 +18,6 @@
#include "i18n.hpp"
#include "log.hpp"
#include <new>
#include <zstd.h>
#include <minIni.h>
@@ -30,40 +29,10 @@ constexpr NcmStorageId NCM_STORAGE_IDS[]{
NcmStorageId_SdCard,
};
// custom allocator for std::vector that respects alignment.
// https://en.cppreference.com/w/cpp/named_req/Allocator
template <typename T, std::size_t Align>
struct CustomVectorAllocator {
public:
// https://en.cppreference.com/w/cpp/memory/new/operator_new
auto allocate(std::size_t n) -> T* {
// log_write("allocating ptr size: %zu\n", n);
return new(align) T[n];
}
// https://en.cppreference.com/w/cpp/memory/new/operator_delete
auto deallocate(T* p, std::size_t n) noexcept -> void {
// log_write("deleting ptr size: %zu\n", n);
::operator delete[] (p, n, align);
}
private:
static constexpr inline std::align_val_t align{Align};
};
template <typename T>
struct PageAllocator : CustomVectorAllocator<T, 0x1000> {
using value_type = T; // used by std::vector
};
template<class T, class U>
bool operator==(const PageAllocator <T>&, const PageAllocator <U>&) { return true; }
using PageAlignedVector = std::vector<u8, PageAllocator<u8>>;
constexpr u32 KEYGEN_LIMIT = 0x20;
struct NcaCollection : container::CollectionEntry {
nca::Header header{};
// NcmContentType
u8 type{};
NcmContentId content_id{};
@@ -72,6 +41,8 @@ struct NcaCollection : container::CollectionEntry {
u8 hash[SHA256_HASH_SIZE]{};
// set true if nca has been modified.
bool modified{};
// set if the nca was not installed.
bool skipped{};
};
struct CnmtCollection : NcaCollection {
@@ -81,7 +52,7 @@ struct CnmtCollection : NcaCollection {
// if set, the ticket / cert will be installed once all nca's have installed.
std::vector<FsRightsId> rights_id{};
NcmContentMetaHeader header{};
NcmContentMetaHeader meta_header{};
NcmContentMetaKey key{};
NcmContentInfo content_info{};
std::vector<u8> extended_header{};
@@ -107,7 +78,7 @@ struct ThreadBuffer {
buf.reserve(INFLATE_BUFFER_MAX);
}
PageAlignedVector buf;
std::vector<u8> buf;
s64 off;
};
@@ -137,7 +108,7 @@ public:
return ringbuf_capacity() - ringbuf_size();
}
void ringbuf_push(PageAlignedVector& buf_in, s64 off_in) {
void ringbuf_push(std::vector<u8>& buf_in, s64 off_in) {
auto& value = this->buf[this->w_index % ringbuf_capacity()];
value.off = off_in;
std::swap(value.buf, buf_in);
@@ -145,7 +116,7 @@ public:
this->w_index = (this->w_index + 1U) % (ringbuf_capacity() * 2U);
}
void ringbuf_pop(PageAlignedVector& buf_out, s64& off_out) {
void ringbuf_pop(std::vector<u8>& buf_out, s64& off_out) {
auto& value = this->buf[this->r_index % ringbuf_capacity()];
off_out = value.off;
std::swap(value.buf, buf_out);
@@ -178,7 +149,7 @@ struct ThreadData {
Result Read(void* buf, s64 size, u64* bytes_read);
Result SetDecompressBuf(PageAlignedVector& buf, s64 off, s64 size) {
Result SetDecompressBuf(std::vector<u8>& buf, s64 off, s64 size) {
buf.resize(size);
mutexLock(std::addressof(read_mutex));
@@ -192,7 +163,7 @@ struct ThreadData {
return condvarWakeOne(std::addressof(can_decompress));
}
Result GetDecompressBuf(PageAlignedVector& buf_out, s64& off_out) {
Result GetDecompressBuf(std::vector<u8>& buf_out, s64& off_out) {
mutexLock(std::addressof(read_mutex));
if (!read_buffers.ringbuf_size()) {
R_TRY(condvarWait(std::addressof(can_decompress), std::addressof(read_mutex)));
@@ -204,7 +175,7 @@ struct ThreadData {
return condvarWakeOne(std::addressof(can_read));
}
Result SetWriteBuf(PageAlignedVector& buf, s64 size, bool skip_verify) {
Result SetWriteBuf(std::vector<u8>& buf, s64 size, bool skip_verify) {
buf.resize(size);
if (!skip_verify) {
sha256ContextUpdate(std::addressof(sha256), buf.data(), buf.size());
@@ -221,7 +192,7 @@ struct ThreadData {
return condvarWakeOne(std::addressof(can_write));
}
Result GetWriteBuf(PageAlignedVector& buf_out, s64& off_out) {
Result GetWriteBuf(std::vector<u8>& buf_out, s64& off_out) {
mutexLock(std::addressof(write_mutex));
if (!write_buffers.ringbuf_size()) {
R_TRY(condvarWait(std::addressof(can_write), std::addressof(write_mutex)));
@@ -274,10 +245,10 @@ struct Yati {
Yati(ui::ProgressBox*, std::shared_ptr<source::Base>);
~Yati();
Result Setup();
Result Setup(const ConfigOverride& override);
Result InstallNca(std::span<TikCollection> tickets, NcaCollection& nca);
Result InstallNcaInternal(std::span<TikCollection> tickets, NcaCollection& nca);
Result InstallCnmtNca(std::span<TikCollection> tickets, CnmtCollection& cnmt, const container::Collections& collections);
Result InstallControlNca(std::span<TikCollection> tickets, const CnmtCollection& cnmt, NcaCollection& nca);
Result readFuncInternal(ThreadData* t);
Result decompressFuncInternal(ThreadData* t);
@@ -361,11 +332,11 @@ HashStr hexIdToStr(auto id) {
// parsing ncz headers, sections and reading ncz blocks
Result Yati::readFuncInternal(ThreadData* t) {
// the main buffer which data is read into.
PageAlignedVector buf;
std::vector<u8> buf;
// workaround ncz block reading ahead. if block isn't found, we usually
// would seek back to the offset, however this is not possible in stream
// mode, so we instead store the data to the temp buffer and pre-pend it.
PageAlignedVector temp_buf;
std::vector<u8> temp_buf;
buf.reserve(t->max_buffer_size);
temp_buf.reserve(t->max_buffer_size);
@@ -453,12 +424,12 @@ Result Yati::decompressFuncInternal(ThreadData* t) {
s64 inflate_offset{};
Aes128CtrContext ctx{};
PageAlignedVector inflate_buf{};
std::vector<u8> inflate_buf{};
inflate_buf.reserve(t->max_buffer_size);
s64 written{};
s64 decompress_buf_off{};
PageAlignedVector buf{};
std::vector<u8> buf{};
buf.reserve(t->max_buffer_size);
// encrypts the nca and passes the buffer to the write thread.
@@ -471,7 +442,7 @@ Result Yati::decompressFuncInternal(ThreadData* t) {
// the remaining data.
// rather that copying the entire vector to the write thread,
// only copy (store) the remaining amount.
PageAlignedVector temp_vector{};
std::vector<u8> temp_vector{};
if (size < inflate_offset) {
temp_vector.resize(inflate_offset - size);
std::memcpy(temp_vector.data(), inflate_buf.data() + size, temp_vector.size());
@@ -538,6 +509,9 @@ Result Yati::decompressFuncInternal(ThreadData* t) {
R_UNLESS(header.magic == 0x3341434E, Result_InvalidNcaMagic);
log_write("nca magic is ok! type: %u\n", header.content_type);
// store the unmodified header.
t->nca->header = header;
if (!config.skip_rsa_header_fixed_key_verify) {
log_write("verifying nca fixed key\n");
R_TRY(nca::VerifyFixedKey(header));
@@ -549,14 +523,14 @@ Result Yati::decompressFuncInternal(ThreadData* t) {
t->write_size = header.size;
R_TRY(ncmContentStorageSetPlaceHolderSize(std::addressof(cs), std::addressof(t->nca->placeholder_id), header.size));
if (header.distribution_type == nca::DistributionType_GameCard) {
if (!config.ignore_distribution_bit && header.distribution_type == nca::DistributionType_GameCard) {
header.distribution_type = nca::DistributionType_System;
t->nca->modified = true;
}
TikCollection* ticket = nullptr;
if (isRightsIdValid(header.rights_id)) {
auto it = std::find_if(t->tik.begin(), t->tik.end(), [header](auto& e){
auto it = std::find_if(t->tik.begin(), t->tik.end(), [&header](auto& e){
return !std::memcmp(&header.rights_id, &e.rights_id, sizeof(e.rights_id));
});
@@ -709,7 +683,7 @@ Result Yati::decompressFuncInternal(ThreadData* t) {
// write thread writes data to the nca placeholder.
Result Yati::writeFuncInternal(ThreadData* t) {
PageAlignedVector buf;
std::vector<u8> buf;
buf.reserve(t->max_buffer_size);
while (t->write_offset < t->write_size && R_SUCCEEDED(t->GetResults())) {
@@ -790,10 +764,15 @@ Yati::~Yati() {
serviceClose(std::addressof(es));
appletSetMediaPlaybackState(false);
if (config.boost_mode) {
appletSetCpuBoostMode(ApmCpuBoostMode_Normal);
}
}
Result Yati::Setup() {
config.sd_card_install = App::GetApp()->m_install_sd.Get();
Result Yati::Setup(const ConfigOverride& override) {
config.sd_card_install = override.sd_card_install.value_or(App::GetApp()->m_install_sd.Get());
config.boost_mode = App::GetApp()->m_boost_mode.Get();
config.allow_downgrade = App::GetApp()->m_allow_downgrade.Get();
config.skip_if_already_installed = App::GetApp()->m_skip_if_already_installed.Get();
config.ticket_only = App::GetApp()->m_ticket_only.Get();
@@ -802,15 +781,19 @@ Result Yati::Setup() {
config.skip_addon = App::GetApp()->m_skip_addon.Get();
config.skip_data_patch = App::GetApp()->m_skip_data_patch.Get();
config.skip_ticket = App::GetApp()->m_skip_ticket.Get();
config.skip_nca_hash_verify = App::GetApp()->m_skip_nca_hash_verify.Get();
config.skip_rsa_header_fixed_key_verify = App::GetApp()->m_skip_rsa_header_fixed_key_verify.Get();
config.skip_rsa_npdm_fixed_key_verify = App::GetApp()->m_skip_rsa_npdm_fixed_key_verify.Get();
config.ignore_distribution_bit = App::GetApp()->m_ignore_distribution_bit.Get();
config.convert_to_standard_crypto = App::GetApp()->m_convert_to_standard_crypto.Get();
config.lower_master_key = App::GetApp()->m_lower_master_key.Get();
config.lower_system_version = App::GetApp()->m_lower_system_version.Get();
config.skip_nca_hash_verify = override.skip_nca_hash_verify.value_or(App::GetApp()->m_skip_nca_hash_verify.Get());
config.skip_rsa_header_fixed_key_verify = override.skip_rsa_header_fixed_key_verify.value_or(App::GetApp()->m_skip_rsa_header_fixed_key_verify.Get());
config.skip_rsa_npdm_fixed_key_verify = override.skip_rsa_npdm_fixed_key_verify.value_or(App::GetApp()->m_skip_rsa_npdm_fixed_key_verify.Get());
config.ignore_distribution_bit = override.ignore_distribution_bit.value_or(App::GetApp()->m_ignore_distribution_bit.Get());
config.convert_to_standard_crypto = override.convert_to_standard_crypto.value_or(App::GetApp()->m_convert_to_standard_crypto.Get());
config.lower_master_key = override.lower_master_key.value_or(App::GetApp()->m_lower_master_key.Get());
config.lower_system_version = override.lower_system_version.value_or(App::GetApp()->m_lower_system_version.Get());
storage_id = config.sd_card_install ? NcmStorageId_SdCard : NcmStorageId_BuiltInUser;
if (config.boost_mode) {
appletSetCpuBoostMode(ApmCpuBoostMode_FastLoad);
}
R_TRY(source->GetOpenResult());
R_TRY(splCryptoInitialize());
R_TRY(nsInitialize());
@@ -829,10 +812,17 @@ Result Yati::Setup() {
R_SUCCEED();
}
Result Yati::InstallNca(std::span<TikCollection> tickets, NcaCollection& nca) {
log_write("in install nca\n");
pbox->NewTransfer(nca.name);
keys::parse_hex_key(std::addressof(nca.content_id), nca.name.c_str());
Result Yati::InstallNcaInternal(std::span<TikCollection> tickets, NcaCollection& nca) {
if (config.skip_if_already_installed) {
R_TRY(ncmContentStorageHas(std::addressof(cs), std::addressof(nca.skipped), std::addressof(nca.content_id)));
if (nca.skipped) {
log_write("\tskipped nca as it's already installed ncmContentStorageHas()\n");
R_TRY(ncmContentStorageReadContentIdFile(std::addressof(cs), std::addressof(nca.header), sizeof(nca.header), std::addressof(nca.content_id), 0));
crypto::cryptoAes128Xts(std::addressof(nca.header), std::addressof(nca.header), keys.header_key, 0, 0x200, sizeof(nca.header), false);
R_SUCCEED();
}
}
log_write("generateing placeholder\n");
R_TRY(ncmContentStorageGeneratePlaceHolderId(std::addressof(cs), std::addressof(nca.placeholder_id)));
log_write("creating placeholder\n");
@@ -918,67 +908,71 @@ Result Yati::InstallNca(std::span<TikCollection> tickets, NcaCollection& nca) {
R_SUCCEED();
}
Result Yati::InstallNca(std::span<TikCollection> tickets, NcaCollection& nca) {
log_write("in install nca\n");
pbox->NewTransfer(nca.name);
keys::parse_hex_key(std::addressof(nca.content_id), nca.name.c_str());
R_TRY(InstallNcaInternal(tickets, nca));
fs::FsPath path;
if (nca.skipped) {
R_TRY(ncmContentStorageGetPath(std::addressof(cs), path, sizeof(path), std::addressof(nca.content_id)));
} else {
R_TRY(ncmContentStorageFlushPlaceHolder(std::addressof(cs)));
R_TRY(ncmContentStorageGetPlaceHolderPath(std::addressof(cs), path, sizeof(path), std::addressof(nca.placeholder_id)));
}
if (nca.header.content_type == nca::ContentType_Program) {
// todo: verify npdm key.
} else if (nca.header.content_type == nca::ContentType_Control) {
NacpLanguageEntry entry;
std::vector<u8> icon;
R_TRY(yati::ParseControlNca(path, nca.header.program_id, &entry, sizeof(entry), &icon));
pbox->SetTitle(entry.name).SetImageData(icon);
}
R_SUCCEED();
}
Result Yati::InstallCnmtNca(std::span<TikCollection> tickets, CnmtCollection& cnmt, const container::Collections& collections) {
R_TRY(InstallNca(tickets, cnmt));
fs::FsPath path;
R_TRY(ncmContentStorageFlushPlaceHolder(std::addressof(cs)));
R_TRY(ncmContentStorageGetPlaceHolderPath(std::addressof(cs), path, sizeof(path), std::addressof(cnmt.placeholder_id)));
if (cnmt.skipped) {
R_TRY(ncmContentStorageGetPath(std::addressof(cs), path, sizeof(path), std::addressof(cnmt.content_id)));
} else {
R_TRY(ncmContentStorageFlushPlaceHolder(std::addressof(cs)));
R_TRY(ncmContentStorageGetPlaceHolderPath(std::addressof(cs), path, sizeof(path), std::addressof(cnmt.placeholder_id)));
}
FsFileSystem fs;
R_TRY(fsOpenFileSystem(std::addressof(fs), FsFileSystemType_ContentMeta, path));
ON_SCOPE_EXIT(fsFsClose(std::addressof(fs)));
FsDir dir;
R_TRY(fsFsOpenDirectory(std::addressof(fs), fs::FsPath{"/"}, FsDirOpenMode_ReadFiles, std::addressof(dir)));
ON_SCOPE_EXIT(fsDirClose(std::addressof(dir)));
s64 total_entries;
FsDirectoryEntry buf;
R_TRY(fsDirRead(std::addressof(dir), std::addressof(total_entries), 1, std::addressof(buf)));
FsFile file;
R_TRY(fsFsOpenFile(std::addressof(fs), fs::AppendPath("/", buf.name), FsOpenMode_Read, std::addressof(file)));
ON_SCOPE_EXIT(fsFileClose(std::addressof(file)));
s64 offset{};
u64 bytes_read;
ncm::PackagedContentMeta header;
R_TRY(fsFileRead(std::addressof(file), offset, std::addressof(header), sizeof(header), 0, std::addressof(bytes_read)));
offset += bytes_read;
std::vector<NcmPackagedContentInfo> infos;
R_TRY(ParseCnmtNca(path, cnmt.header.program_id, header, cnmt.extended_header, infos));
// read extended header
cnmt.extended_header.resize(header.meta_header.extended_header_size);
R_TRY(fsFileRead(std::addressof(file), offset, cnmt.extended_header.data(), cnmt.extended_header.size(), 0, std::addressof(bytes_read)));
offset += bytes_read;
// read infos.
std::vector<NcmPackagedContentInfo> infos(header.meta_header.content_count);
R_TRY(fsFileRead(std::addressof(file), offset, infos.data(), infos.size() * sizeof(NcmPackagedContentInfo), 0, std::addressof(bytes_read)));
offset += bytes_read;
for (const auto& info : infos) {
if (info.info.content_type == NcmContentType_DeltaFragment) {
for (const auto& packed_info : infos) {
const auto& info = packed_info.info;
if (info.content_type == NcmContentType_DeltaFragment) {
continue;
}
const auto str = hexIdToStr(info.info.content_id);
const auto it = std::find_if(collections.cbegin(), collections.cend(), [str](auto& e){
const auto str = hexIdToStr(info.content_id);
const auto it = std::find_if(collections.cbegin(), collections.cend(), [&str](auto& e){
return e.name.find(str.str) != e.name.npos;
});
R_UNLESS(it != collections.cend(), Result_NcaNotFound);
log_write("found: %s\n", str.str);
cnmt.infos.emplace_back(info);
cnmt.infos.emplace_back(packed_info);
auto& nca = cnmt.ncas.emplace_back(*it);
nca.type = info.info.content_type;
nca.type = info.content_type;
}
// update header
cnmt.header = header.meta_header;
cnmt.header.content_count = cnmt.infos.size() + 1;
cnmt.header.storage_id = 0;
cnmt.meta_header = header.meta_header;
cnmt.meta_header.content_count = cnmt.infos.size() + 1;
cnmt.meta_header.storage_id = 0;
cnmt.key.id = header.title_id;
cnmt.key.version = header.title_version;
@@ -1013,32 +1007,6 @@ Result Yati::InstallCnmtNca(std::span<TikCollection> tickets, CnmtCollection& cn
R_SUCCEED();
}
Result Yati::InstallControlNca(std::span<TikCollection> tickets, const CnmtCollection& cnmt, NcaCollection& nca) {
R_TRY(InstallNca(tickets, nca));
fs::FsPath path;
R_TRY(ncmContentStorageFlushPlaceHolder(std::addressof(cs)));
R_TRY(ncmContentStorageGetPlaceHolderPath(std::addressof(cs), path, sizeof(path), std::addressof(nca.placeholder_id)));
log_write("got control path: %s\n", path.s);
FsFileSystem fs;
R_TRY(fsOpenFileSystemWithId(std::addressof(fs), ncm::GetAppId(cnmt.key), FsFileSystemType_ContentControl, path, FsContentAttributes_All));
ON_SCOPE_EXIT(fsFsClose(std::addressof(fs)));
log_write("opened control path fs: %s\n", path.s);
FsFile file;
R_TRY(fsFsOpenFile(std::addressof(fs), fs::FsPath{"/control.nacp"}, FsOpenMode_Read, std::addressof(file)));
ON_SCOPE_EXIT(fsFileClose(std::addressof(file)));
log_write("got control path file: %s\n", path.s);
NacpLanguageEntry entry;
u64 bytes_read;
R_TRY(fsFileRead(&file, 0, &entry, sizeof(entry), 0, &bytes_read));
pbox->SetTitle("Installing "_i18n + entry.name);
R_SUCCEED();
}
Result Yati::ParseTicketsIntoCollection(std::vector<TikCollection>& tickets, const container::Collections& collections, bool read_data) {
for (const auto& collection : collections) {
if (collection.name.ends_with(".tik")) {
@@ -1046,7 +1014,7 @@ Result Yati::ParseTicketsIntoCollection(std::vector<TikCollection>& tickets, con
keys::parse_hex_key(entry.rights_id.c, collection.name.c_str());
const auto str = collection.name.substr(0, collection.name.length() - 4) + ".cert";
const auto cert = std::find_if(collections.cbegin(), collections.cend(), [str](auto& e){
const auto cert = std::find_if(collections.cbegin(), collections.cend(), [&str](auto& e){
return e.name.find(str) != e.name.npos;
});
@@ -1070,41 +1038,37 @@ Result Yati::ParseTicketsIntoCollection(std::vector<TikCollection>& tickets, con
Result Yati::GetLatestVersion(const CnmtCollection& cnmt, u32& version_out, bool& skip) {
const auto app_id = ncm::GetAppId(cnmt.key);
bool has_records;
R_TRY(nsIsAnyApplicationEntityInstalled(app_id, &has_records));
// TODO: fix this when gamecard is inserted as it will only return records
// for the gamecard...
// may have to use ncm directly to get the keys, then parse that.
version_out = cnmt.key.version;
if (has_records) {
s32 meta_count{};
R_TRY(nsCountApplicationContentMeta(app_id, &meta_count));
R_UNLESS(meta_count > 0, 0x1);
std::vector<ncm::ContentStorageRecord> records(meta_count);
s32 count;
R_TRY(ns::ListApplicationRecordContentMeta(std::addressof(ns_app), 0, app_id, records.data(), records.size(), &count));
R_UNLESS(count == records.size(), 0x1);
for (auto& record : records) {
log_write("found record: 0x%016lX type: %u version: %u\n", record.key.id, record.key.type, record.key.version);
log_write("cnmt record: 0x%016lX type: %u version: %u\n", cnmt.key.id, cnmt.key.type, cnmt.key.version);
if (record.key.id == cnmt.key.id && cnmt.key.version == record.key.version && config.skip_if_already_installed) {
log_write("skipping as already installed\n");
skip = true;
for (auto& db : ncm_db) {
s32 db_list_total;
s32 db_list_count;
std::vector<NcmContentMetaKey> keys(1);
if (R_SUCCEEDED(ncmContentMetaDatabaseList(std::addressof(db), std::addressof(db_list_total), std::addressof(db_list_count), keys.data(), keys.size(), NcmContentMetaType_Unknown, app_id, 0, UINT64_MAX, NcmContentInstallType_Full))) {
if (db_list_total != keys.size()) {
keys.resize(db_list_total);
if (keys.size()) {
R_TRY(ncmContentMetaDatabaseList(std::addressof(db), std::addressof(db_list_total), std::addressof(db_list_count), keys.data(), keys.size(), NcmContentMetaType_Unknown, app_id, 0, UINT64_MAX, NcmContentInstallType_Full));
}
}
// check if we are downgrading
if (cnmt.key.type == NcmContentMetaType_Patch) {
if (cnmt.key.type == record.key.type && cnmt.key.version < record.key.version && !config.allow_downgrade) {
log_write("skipping due to it being lower\n");
for (auto& key : keys) {
log_write("found record: %016lX type: %u version: %u\n", key.id, key.type, key.version);
if (key.id == cnmt.key.id && cnmt.key.version == key.version && config.skip_if_already_installed) {
log_write("skipping as already installed\n");
skip = true;
}
} else {
version_out = std::max(version_out, record.key.version);
// check if we are downgrading
if (cnmt.key.type == NcmContentMetaType_Patch) {
if (cnmt.key.type == key.type && cnmt.key.version < key.version && !config.allow_downgrade) {
log_write("skipping due to it being lower\n");
skip = true;
}
} else {
version_out = std::max(version_out, key.version);
}
}
}
}
@@ -1129,6 +1093,13 @@ Result Yati::ShouldSkip(const CnmtCollection& cnmt, bool& skip) {
} else if (config.skip_data_patch && cnmt.key.type == NcmContentMetaType_DataPatch) {
log_write("\tskipping: [NcmContentMetaType_DataPatch]\n");
skip = true;
} else if (config.skip_if_already_installed) {
bool has;
R_TRY(ncmContentMetaDatabaseHas(std::addressof(db), std::addressof(has), std::addressof(cnmt.key)));
if (has) {
log_write("\tskipping: [ncmContentMetaDatabaseHas()]\n");
skip = true;
}
}
R_SUCCEED();
@@ -1160,7 +1131,6 @@ Result Yati::RemoveInstalledNcas(const CnmtCollection& cnmt) {
s32 db_list_count;
u64 id_min = cnmt.key.id;
u64 id_max = cnmt.key.id;
std::vector<NcmContentMetaKey> keys(1);
// if installing a patch, remove all previously installed patches.
if (cnmt.key.type == NcmContentMetaType_Patch) {
@@ -1222,7 +1192,7 @@ Result Yati::RegisterNcasAndPushRecord(const CnmtCollection& cnmt, u32 latest_ve
log_write("registered cnmt nca\n");
for (auto& nca : cnmt.ncas) {
if (nca.type != NcmContentType_DeltaFragment) {
if (!nca.skipped && nca.type != NcmContentType_DeltaFragment) {
log_write("registering nca: %s\n", nca.name.c_str());
R_TRY(ncm::Register(std::addressof(cs), std::addressof(nca.content_id), std::addressof(nca.placeholder_id)));
log_write("registered nca: %s\n", nca.name.c_str());
@@ -1233,7 +1203,7 @@ Result Yati::RegisterNcasAndPushRecord(const CnmtCollection& cnmt, u32 latest_ve
// build ncm meta and push to the database.
BufHelper buf{};
buf.write(std::addressof(cnmt.header), sizeof(cnmt.header));
buf.write(std::addressof(cnmt.meta_header), sizeof(cnmt.meta_header));
buf.write(cnmt.extended_header.data(), cnmt.extended_header.size());
buf.write(std::addressof(cnmt.content_info), sizeof(cnmt.content_info));
@@ -1263,9 +1233,9 @@ Result Yati::RegisterNcasAndPushRecord(const CnmtCollection& cnmt, u32 latest_ve
R_SUCCEED();
}
Result InstallInternal(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const container::Collections& collections) {
Result InstallInternal(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const container::Collections& collections, const ConfigOverride& override) {
auto yati = std::make_unique<Yati>(pbox, source);
R_TRY(yati->Setup());
R_TRY(yati->Setup(override));
std::vector<TikCollection> tickets{};
R_TRY(yati->ParseTicketsIntoCollection(tickets, collections, true));
@@ -1301,12 +1271,7 @@ Result InstallInternal(ui::ProgressBox* pbox, std::shared_ptr<source::Base> sour
log_write("installing nca's\n");
for (auto& nca : cnmt.ncas) {
if (nca.type == NcmContentType_Control) {
log_write("installing control nca\n");
R_TRY(yati->InstallControlNca(tickets, cnmt, nca));
} else {
R_TRY(yati->InstallNca(tickets, nca));
}
R_TRY(yati->InstallNca(tickets, nca));
}
R_TRY(yati->ImportTickets(tickets));
@@ -1318,11 +1283,12 @@ Result InstallInternal(ui::ProgressBox* pbox, std::shared_ptr<source::Base> sour
R_SUCCEED();
}
Result InstallInternalStream(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, container::Collections collections) {
Result InstallInternalStream(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, container::Collections collections, const ConfigOverride& override) {
auto yati = std::make_unique<Yati>(pbox, source);
R_TRY(yati->Setup());
R_TRY(yati->Setup(override));
// not supported with stream installs (yet).
yati->config.skip_if_already_installed = false;
yati->config.convert_to_standard_crypto = false;
yati->config.lower_master_key = false;
@@ -1365,7 +1331,7 @@ Result InstallInternalStream(ui::ProgressBox* pbox, std::shared_ptr<source::Base
keys::parse_hex_key(rights_id.c, collection.name.c_str());
const auto str = collection.name.substr(0, collection.name.length() - 4) + ".cert";
auto entry = std::find_if(tickets.begin(), tickets.end(), [rights_id](auto& e){
auto entry = std::find_if(tickets.begin(), tickets.end(), [&rights_id](auto& e){
return !std::memcmp(&rights_id, &e.rights_id, sizeof(rights_id));
});
@@ -1384,7 +1350,7 @@ Result InstallInternalStream(ui::ProgressBox* pbox, std::shared_ptr<source::Base
for (auto& cnmt : cnmts) {
// copy nca structs into cnmt.
for (auto& cnmt_nca : cnmt.ncas) {
auto it = std::find_if(ncas.cbegin(), ncas.cend(), [cnmt_nca](auto& e){
auto it = std::find_if(ncas.cbegin(), ncas.cend(), [&cnmt_nca](auto& e){
return e.name == cnmt_nca.name;
});
@@ -1415,40 +1381,107 @@ Result InstallInternalStream(ui::ProgressBox* pbox, std::shared_ptr<source::Base
} // namespace
Result InstallFromFile(ui::ProgressBox* pbox, FsFileSystem* fs, const fs::FsPath& path) {
return InstallFromSource(pbox, std::make_shared<source::File>(fs, path), path);
// return InstallFromSource(pbox, std::make_shared<source::StreamFile>(fs, path), path);
Result InstallFromFile(ui::ProgressBox* pbox, FsFileSystem* fs, const fs::FsPath& path, const ConfigOverride& override) {
return InstallFromSource(pbox, std::make_shared<source::File>(fs, path), path, override);
// return InstallFromSource(pbox, std::make_shared<source::StreamFile>(fs, path), path, override);
}
Result InstallFromStdioFile(ui::ProgressBox* pbox, const fs::FsPath& path) {
return InstallFromSource(pbox, std::make_shared<source::Stdio>(path), path);
Result InstallFromStdioFile(ui::ProgressBox* pbox, const fs::FsPath& path, const ConfigOverride& override) {
return InstallFromSource(pbox, std::make_shared<source::Stdio>(path), path, override);
}
Result InstallFromSource(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const fs::FsPath& path) {
Result InstallFromSource(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const fs::FsPath& path, const ConfigOverride& override) {
const auto ext = std::strrchr(path.s, '.');
R_UNLESS(ext, Result_ContainerNotFound);
if (!strcasecmp(ext, ".nsp") || !strcasecmp(ext, ".nsz")) {
return InstallFromContainer(pbox, std::make_unique<container::Nsp>(source));
return InstallFromContainer(pbox, std::make_unique<container::Nsp>(source), override);
} else if (!strcasecmp(ext, ".xci") || !strcasecmp(ext, ".xcz")) {
return InstallFromContainer(pbox, std::make_unique<container::Xci>(source));
return InstallFromContainer(pbox, std::make_unique<container::Xci>(source), override);
}
R_THROW(Result_ContainerNotFound);
}
Result InstallFromContainer(ui::ProgressBox* pbox, std::shared_ptr<container::Base> container) {
Result InstallFromContainer(ui::ProgressBox* pbox, std::shared_ptr<container::Base> container, const ConfigOverride& override) {
container::Collections collections;
R_TRY(container->GetCollections(collections));
return InstallFromCollections(pbox, container->GetSource(), collections);
}
Result InstallFromCollections(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const container::Collections& collections) {
Result InstallFromCollections(ui::ProgressBox* pbox, std::shared_ptr<source::Base> source, const container::Collections& collections, const ConfigOverride& override) {
if (source->IsStream()) {
return InstallInternalStream(pbox, source, collections);
return InstallInternalStream(pbox, source, collections, override);
} else {
return InstallInternal(pbox, source, collections);
return InstallInternal(pbox, source, collections, override);
}
}
Result ParseCnmtNca(const fs::FsPath& path, u64 program_id, ncm::PackagedContentMeta& header, std::vector<u8>& extended_header, std::vector<NcmPackagedContentInfo>& infos) {
FsFileSystem fs;
R_TRY(fsOpenFileSystemWithId(std::addressof(fs), program_id, FsFileSystemType_ContentMeta, path, FsContentAttributes_All));
ON_SCOPE_EXIT(fsFsClose(std::addressof(fs)));
FsDir dir;
R_TRY(fsFsOpenDirectory(std::addressof(fs), fs::FsPath{"/"}, FsDirOpenMode_ReadFiles, std::addressof(dir)));
ON_SCOPE_EXIT(fsDirClose(std::addressof(dir)));
s64 total_entries;
FsDirectoryEntry buf;
R_TRY(fsDirRead(std::addressof(dir), std::addressof(total_entries), 1, std::addressof(buf)));
FsFile file;
R_TRY(fsFsOpenFile(std::addressof(fs), fs::AppendPath("/", buf.name), FsOpenMode_Read, std::addressof(file)));
ON_SCOPE_EXIT(fsFileClose(std::addressof(file)));
s64 offset{};
u64 bytes_read;
R_TRY(fsFileRead(std::addressof(file), offset, std::addressof(header), sizeof(header), 0, std::addressof(bytes_read)));
offset += bytes_read;
// read extended header
extended_header.resize(header.meta_header.extended_header_size);
R_TRY(fsFileRead(std::addressof(file), offset, extended_header.data(), extended_header.size(), 0, std::addressof(bytes_read)));
offset += bytes_read;
// read infos.
infos.resize(header.meta_header.content_count);
R_TRY(fsFileRead(std::addressof(file), offset, infos.data(), infos.size() * sizeof(NcmPackagedContentInfo), 0, std::addressof(bytes_read)));
offset += bytes_read;
R_SUCCEED();
}
Result ParseControlNca(const fs::FsPath& path, u64 program_id, void* nacp_out, s64 nacp_size, std::vector<u8>* icon_out) {
FsFileSystem fs;
R_TRY(fsOpenFileSystemWithId(std::addressof(fs), program_id, FsFileSystemType_ContentControl, path, FsContentAttributes_All));
ON_SCOPE_EXIT(fsFsClose(std::addressof(fs)));
// read nacp.
if (nacp_out) {
FsFile file;
R_TRY(fsFsOpenFile(std::addressof(fs), fs::FsPath{"/control.nacp"}, FsOpenMode_Read, std::addressof(file)));
ON_SCOPE_EXIT(fsFileClose(std::addressof(file)));
u64 bytes_read;
R_TRY(fsFileRead(&file, 0, nacp_out, nacp_size, 0, &bytes_read));
}
// read icon.
if (icon_out) {
FsFile file;
R_TRY(fsFsOpenFile(std::addressof(fs), fs::FsPath{"/icon_AmericanEnglish.dat"}, FsOpenMode_Read, std::addressof(file)));
ON_SCOPE_EXIT(fsFileClose(std::addressof(file)));
s64 size;
R_TRY(fsFileGetSize(std::addressof(file), std::addressof(size)));
icon_out->resize(size);
u64 bytes_read;
R_TRY(fsFileRead(&file, 0, icon_out->data(), icon_out->size(), 0, &bytes_read));
}
R_SUCCEED();
}
} // namespace sphaira::yati

171
tools/usb_install_pc.py Normal file
View File

@@ -0,0 +1,171 @@
# This script depends on PyUSB. You can get it with pip install pyusb.
# You will also need libusb installed
# My sincere apologies for this process being overly complicated. Apparently Python and Windows
# aren't very friendly :(
# Windows Instructions:
# 1. Download Zadig from https://zadig.akeo.ie/.
# 2. With your switch plugged in and on the Tinfoil USB install menu,
# choose "List All Devices" under the options menu in Zadig, and select libnx USB comms.
# 3. Choose libusbK from the driver list and click the "Replace Driver" button.
# 4. Run this script
# macOS Instructions:
# 1. Install Homebrew https://brew.sh
# 2. Install Python 3
# sudo mkdir /usr/local/Frameworks
# sudo chown $(whoami) /usr/local/Frameworks
# brew install python
# 3. Install PyUSB
# pip3 install pyusb
# 4. Install libusb
# brew install libusb
# 5. Plug in your Switch and go to Tinfoil > Title Management > USB Install NSP
# 6. Run this script
# python3 usb_install_pc.py <path/to/nsp_folder>
import usb.core
import usb.util
import struct
import sys
from pathlib import Path
import time
CMD_ID_EXIT = 0
CMD_ID_FILE_RANGE = 1
CMD_TYPE_RESPONSE = 1
# list of supported extensions.
EXTS = (".nsp", ".xci", ".nsz", ".xcz")
def send_response_header(out_ep, cmd_id, data_size):
out_ep.write(b'TUC0') # Tinfoil USB Command 0
out_ep.write(struct.pack('<B', CMD_TYPE_RESPONSE))
out_ep.write(b'\x00' * 3)
out_ep.write(struct.pack('<I', cmd_id))
out_ep.write(struct.pack('<Q', data_size))
out_ep.write(b'\x00' * 0xC)
def file_range_cmd(nsp_dir, in_ep, out_ep, data_size):
file_range_header = in_ep.read(0x20)
range_size = struct.unpack('<Q', file_range_header[:8])[0]
range_offset = struct.unpack('<Q', file_range_header[8:16])[0]
nsp_name_len = struct.unpack('<Q', file_range_header[16:24])[0]
#in_ep.read(0x8) # Reserved
nsp_name = bytes(in_ep.read(nsp_name_len)).decode('utf-8')
print('Range Size: {}, Range Offset: {}, Name len: {}, Name: {}'.format(range_size, range_offset, nsp_name_len, nsp_name))
send_response_header(out_ep, CMD_ID_FILE_RANGE, range_size)
with open(nsp_name, 'rb') as f:
f.seek(range_offset)
curr_off = 0x0
end_off = range_size
read_size = 0x800000
while curr_off < end_off:
if curr_off + read_size >= end_off:
read_size = end_off - curr_off
buf = f.read(read_size)
out_ep.write(data=buf, timeout=0)
curr_off += read_size
def poll_commands(nsp_dir, in_ep, out_ep):
while True:
cmd_header = bytes(in_ep.read(0x20, timeout=0))
magic = cmd_header[:4]
print('Magic: {}'.format(magic), flush=True)
if magic != b'TUC0': # Tinfoil USB Command 0
continue
cmd_type = struct.unpack('<B', cmd_header[4:5])[0]
cmd_id = struct.unpack('<I', cmd_header[8:12])[0]
data_size = struct.unpack('<Q', cmd_header[12:20])[0]
print('Cmd Type: {}, Command id: {}, Data size: {}'.format(cmd_type, cmd_id, data_size), flush=True)
if cmd_id == CMD_ID_EXIT:
print('Exiting...')
break
elif cmd_id == CMD_ID_FILE_RANGE:
file_range_cmd(nsp_dir, in_ep, out_ep, data_size)
def send_nsp_list(nsp_dir, out_ep):
nsp_path_list = list()
nsp_path_list_len = 0
# Add all files with the extension .nsp in the provided dir
for nsp_path in [f for f in nsp_dir.iterdir() if f.is_file() and (f.suffix in EXTS)]:
nsp_path_list.append(nsp_path.__str__() + '\n')
nsp_path_list_len += len(nsp_path.__str__()) + 1
print('Sending header...')
out_ep.write(b'TUL0') # Tinfoil USB List 0
out_ep.write(struct.pack('<I', nsp_path_list_len))
out_ep.write(b'\x00' * 0x8) # Padding
print('Sending NSP list: {}'.format(nsp_path_list))
for nsp_path in nsp_path_list:
out_ep.write(nsp_path)
def print_usage():
print("""\
usb_install_pc.py
Used for the installation of NSPs over USB.
Usage: usb_install_pc.py <nsp folder>""")
if __name__ == '__main__':
if len(sys.argv) != 2:
print_usage()
sys.exit(1)
nsp_dir = Path(sys.argv[1])
if not nsp_dir.is_dir():
raise ValueError('1st argument must be a directory')
print("waiting for switch...\n")
dev = None
while (dev is None):
dev = usb.core.find(idVendor=0x057E, idProduct=0x3000)
time.sleep(0.5)
print("found the switch!\n")
cfg = None
try:
cfg = dev.get_active_configuration()
print("found active config")
except usb.core.USBError:
print("no currently active config")
cfg = None
if cfg is None:
dev.reset()
dev.set_configuration()
cfg = dev.get_active_configuration()
is_out_ep = lambda ep: usb.util.endpoint_direction(ep.bEndpointAddress) == usb.util.ENDPOINT_OUT
is_in_ep = lambda ep: usb.util.endpoint_direction(ep.bEndpointAddress) == usb.util.ENDPOINT_IN
out_ep = usb.util.find_descriptor(cfg[(0,0)], custom_match=is_out_ep)
in_ep = usb.util.find_descriptor(cfg[(0,0)], custom_match=is_in_ep)
assert out_ep is not None
assert in_ep is not None
print("iManufacturer: {} iProduct: {} iSerialNumber: {}".format(dev.manufacturer, dev.product, dev.serial_number))
print("bcdUSB: {} bMaxPacketSize0: {}".format(hex(dev.bcdUSB), dev.bMaxPacketSize0))
send_nsp_list(nsp_dir, out_ep)
poll_commands(nsp_dir, in_ep, out_ep)

141
tools/usb_total.py
View File

@@ -1,141 +0,0 @@
# based on usb.py from Tinfoil, by Adubbz.
import struct
import sys
import os
import usb.core
import usb.util
import time
import glob
from pathlib import Path
# magic number (SPHA) for the script and switch.
MAGIC = 0x53504841
# version of the usb script.
VERSION = 2
# list of supported extensions.
EXTS = (".nsp", ".xci", ".nsz", ".xcz")
def verify_switch(bcdUSB, count, in_ep, out_ep):
header = in_ep.read(8, timeout=0)
switch_magic = struct.unpack('<I', header[0:4])[0]
switch_version = struct.unpack('<I', header[4:8])[0]
if switch_magic != MAGIC:
raise Exception("Unexpected magic {}".format(switch_magic))
if switch_version != VERSION:
raise Exception("Unexpected version {}".format(switch_version))
send_data = struct.pack('<IIII', MAGIC, VERSION, bcdUSB, count)
out_ep.write(data=send_data, timeout=0)
def send_file_info(path, in_ep, out_ep):
file_name = Path(path).name
file_size = Path(path).stat().st_size
file_name_len = len(file_name)
send_data = struct.pack('<QQ', file_size, file_name_len)
out_ep.write(data=send_data, timeout=0)
out_ep.write(data=file_name, timeout=0)
def wait_for_input(path, in_ep, out_ep):
buf = None
predicted_off = 0
print("now waiting for intput\n")
with open(path, "rb") as file:
while True:
header = in_ep.read(24, timeout=0)
range_offset = struct.unpack('<Q', header[8:16])[0]
range_size = struct.unpack('<Q', header[16:24])[0]
if (range_offset == 0 and range_size == 0):
break
if (buf != None and range_offset == predicted_off and range_size == len(buf)):
# print("predicted the read off {} size {}".format(predicted_off, len(buf)))
pass
else:
file.seek(range_offset)
buf = file.read(range_size)
if (len(buf) != range_size):
# print("off: {} size: {}".format(range_offset, range_size))
raise ValueError('bad buf size!!!!!')
result = out_ep.write(data=buf, timeout=0)
if (len(buf) != result):
print("off: {} size: {}".format(range_offset, range_size))
raise ValueError('bad result!!!!!')
predicted_off = range_offset + range_size
buf = file.read(range_size)
if __name__ == '__main__':
print("hello world")
# check which mode the user has selected.
args = len(sys.argv)
if (args != 2):
print("either run python usb_total.py game.nsp OR drag and drop the game onto the python file (if python is in your path)")
sys.exit(1)
path = sys.argv[1]
files = []
if os.path.isfile(path) and path.endswith(EXTS):
files.append(path)
elif os.path.isdir(path):
for f in glob.glob(path + "/**/*.*", recursive=True):
if os.path.isfile(f) and f.endswith(EXTS):
files.append(f)
else:
raise ValueError('must be a file!')
# for file in files:
# print("found file: {}".format(file))
# Find the switch
print("waiting for switch...\n")
dev = None
while (dev is None):
dev = usb.core.find(idVendor=0x057E, idProduct=0x3000)
time.sleep(0.5)
print("found the switch!\n")
cfg = None
try:
cfg = dev.get_active_configuration()
print("found active config")
except usb.core.USBError:
print("no currently active config")
cfg = None
if cfg is None:
dev.set_configuration()
cfg = dev.get_active_configuration()
is_out_ep = lambda ep: usb.util.endpoint_direction(ep.bEndpointAddress) == usb.util.ENDPOINT_OUT
is_in_ep = lambda ep: usb.util.endpoint_direction(ep.bEndpointAddress) == usb.util.ENDPOINT_IN
out_ep = usb.util.find_descriptor(cfg[(0,0)], custom_match=is_out_ep)
in_ep = usb.util.find_descriptor(cfg[(0,0)], custom_match=is_in_ep)
assert out_ep is not None
assert in_ep is not None
print("iManufacturer: {} iProduct: {} iSerialNumber: {}".format(dev.manufacturer, dev.product, dev.serial_number))
print("bcdUSB: {} bMaxPacketSize0: {}".format(hex(dev.bcdUSB), dev.bMaxPacketSize0))
try:
verify_switch(dev.bcdUSB, len(files), in_ep, out_ep)
for file in files:
print("installing file: {}".format(file))
send_file_info(file, in_ep, out_ep)
wait_for_input(file, in_ep, out_ep)
dev.reset()
except Exception as inst:
print("An exception occurred " + str(inst))