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Ninfs 3DS: Difference between revisions

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# ninfs
= ninfs =
 
ninfs (formerly fuse-3ds) is a FUSE program to extract data from Nintendo game consoles. It works by presenting a virtual filesystem with the contents of your games, NAND, or SD card contents, and you can browse and copy out just the files that you need.
ninfs (formerly fuse-3ds) is a FUSE program to extract data from Nintendo game consoles. It works by presenting a virtual filesystem with the contents of your games, NAND, or SD card contents, and you can browse and copy out just the files that you need.


Windows, macOS, and Linux are supported.
Windows, macOS, and Linux are supported.


<p align="center"><img src="https://github.com/ihaveamac/ninfs/raw/master/resources/ciamount-mac.png" width="882"></p>
<p align=""center""><img src=""https://github.com/ihaveamac/ninfs/raw/master/resources/ciamount-mac.png"" width=""882""></p>
 
== Supported types ==


## Supported types
* Nintendo 3DS:
* Nintendo 3DS:
* CTR Cart Image (".3ds", ".cci")
** CTR Cart Image (&quot;&quot;.3ds&quot;&quot;, &quot;&quot;.cci&quot;&quot;)
* CDN contents ("cetk", "tmd", and contents)
** CDN contents (&quot;&quot;cetk&quot;&quot;, &quot;&quot;tmd&quot;&quot;, and contents)
* CTR Importable Archive (".cia")
** CTR Importable Archive (&quot;&quot;.cia&quot;&quot;)
* Executable Filesystem (".exefs", "exefs.bin")
** Executable Filesystem (&quot;&quot;.exefs&quot;&quot;, &quot;&quot;exefs.bin&quot;&quot;)
* Nintendo 3DS NAND backup ("nand.bin")
** Nintendo 3DS NAND backup (&quot;&quot;nand.bin&quot;&quot;)
* NCCH (".cxi", ".cfa", ".ncch", ".app")
** NCCH (&quot;&quot;.cxi&quot;&quot;, &quot;&quot;.cfa&quot;&quot;, &quot;&quot;.ncch&quot;&quot;, &quot;&quot;.app&quot;&quot;)
* Read-only Filesystem (".romfs", "romfs.bin")
** Read-only Filesystem (&quot;&quot;.romfs&quot;&quot;, &quot;&quot;romfs.bin&quot;&quot;)
* SD Card Contents ("Nintendo 3DS" from SD)
** SD Card Contents (&quot;&quot;Nintendo 3DS&quot;&quot; from SD)
* 3DSX Homebrew (".3dsx")
** 3DSX Homebrew (&quot;&quot;.3dsx&quot;&quot;)
* Nintendo DS / DSi
* Nintendo DS / DSi
* Nintendo DSi NAND backup ("nand\_dsi.bin")
** Nintendo DSi NAND backup (&quot;&quot;nand_dsi.bin&quot;&quot;)
* Nintendo DS ROM image (".nds", ".srl")
** Nintendo DS ROM image (&quot;&quot;.nds&quot;&quot;, &quot;&quot;.srl&quot;&quot;)
* Nintendo Switch
* Nintendo Switch
* Nintendo Switch NAND backup ("rawnand.bin")
** Nintendo Switch NAND backup (&quot;&quot;rawnand.bin&quot;&quot;)
 
== Example uses ==


## Example uses
* Mount a NAND backup and browse CTRNAND, TWLNAND, and others, and write back to them without having to extract and decrypt them first.
* Mount a NAND backup and browse CTRNAND, TWLNAND, and others, and write back to them without having to extract and decrypt them first.
* Browse decrypted SD card contents. Dump installed games and saves, or copy contents between two system's SD contents.
* Browse decrypted SD card contents. Dump installed games and saves, or copy contents between two system's SD contents.
* Extract a game's files out of a CIA, CCI (".3ds"), NCCH, RomFS, raw CDN contents, just by mounting them and browsing its files. Or use the virtual decrypted file and start playing the game in [Citra](https://citra-emu.org) right away.
* Extract a game's files out of a CIA, CCI (&quot;&quot;.3ds&quot;&quot;), NCCH, RomFS, raw CDN contents, just by mounting them and browsing its files. Or use the virtual decrypted file and start playing the game in [https://citra-emu.org Citra] right away.
 
== Setup ==
 
For 3DS types, The ARM9 bootROM is required. You can dump it using boot9strap, which can be set up by [https://3ds.hacks.guide 3DS Hacks Guide]. To dump the bootROM, hold START+SELECT+X when you boot up your 3DS. It is checked in order of:


## Setup
* <code>--boot9</code> argument (if set)
For 3DS types, The ARM9 bootROM is required. You can dump it using boot9strap, which can be set up by [3DS Hacks Guide](https://3ds.hacks.guide). To dump the bootROM, hold START+SELECT+X when you boot up your 3DS. It is checked in order of:
* <code>BOOT9_PATH</code> environment variable (if set)
* `--boot9` argument (if set)
* <code>%APPDATA%\3ds\boot9.bin</code> (Windows-specific)
* `BOOT9_PATH` environment variable (if set)
* <code>~/Library/Application Support/3ds/boot9.bin</code> (macOS-specific)
* `%APPDATA%\3ds\boot9.bin` (Windows-specific)
* <code>~/.3ds/boot9.bin</code>
* `~/Library/Application Support/3ds/boot9.bin` (macOS-specific)
* <code>~/3ds/boot9.bin</code>
* `~/.3ds/boot9.bin`
* `~/3ds/boot9.bin`


`boot9_prot.bin` can also be used in all of these locations.
<code>boot9_prot.bin</code> can also be used in all of these locations.


"`~`" means the user's home directory. "`~/3ds`" would mean `/Users/username/3ds` on macOS and `C:\Users\username\3ds` on Windows.
&quot;&quot;<code>~</code>&quot;&quot; means the user's home directory. &quot;&quot;<code>~/3ds</code>&quot;&quot; would mean <code>/Users/username/3ds</code> on macOS and <code>C:\Users\username\3ds</code> on Windows.


CDN, CIA, and NCCH mounting may need [SeedDB](https://github.com/ihaveamac/3DS-rom-tools/wiki/SeedDB-list) for mounting NCCH containers of newer games (2015+) that use seeds.
CDN, CIA, and NCCH mounting may need [https://github.com/ihaveamac/3DS-rom-tools/wiki/SeedDB-list SeedDB] for mounting NCCH containers of newer games (2015+) that use seeds.<br />
SeedDB is checked in order of:
SeedDB is checked in order of:
* `--seeddb` argument (if set)
 
* `SEEDDB_PATH` environment variable (if set)
* <code>--seeddb</code> argument (if set)
* `%APPDATA%\3ds\seeddb.bin` (Windows-specific)
* <code>SEEDDB_PATH</code> environment variable (if set)
* `~/Library/Application Support/3ds/seeddb.bin` (macOS-specific)
* <code>%APPDATA%\3ds\seeddb.bin</code> (Windows-specific)
* `~/.3ds/seeddb.bin`
* <code>~/Library/Application Support/3ds/seeddb.bin</code> (macOS-specific)
* `~/3ds/seeddb.bin`
* <code>~/.3ds/seeddb.bin</code>
* <code>~/3ds/seeddb.bin</code>


Python 3.6.1+ and pycryptodomex are required. PySide2 is required for the GUI.
Python 3.6.1+ and pycryptodomex are required. PySide2 is required for the GUI.
* [fusepy](https://github.com/fusepy/fusepy) is pre-included until [refuse](https://github.com/pleiszenburg/refuse) has a fully stable release.


### Windows
* [https://github.com/fusepy/fusepy fusepy] is pre-included until [https://github.com/pleiszenburg/refuse refuse] has a fully stable release.
 
=== Windows ===
 
Windows 7 or later is required.
Windows 7 or later is required.


(GUI in progress of being re-created.) Python does not have to be installed, but [WinFsp](http://www.secfs.net/winfsp/download/) is still required.
(GUI in progress of being re-created.) Python does not have to be installed, but [http://www.secfs.net/winfsp/download/ WinFsp] is still required.
 
==== Install with existing Python ====
 
* Install the latest version of [https://www.python.org/downloads/ Python 3]. The x86-64 version is preferred on 64-bit Windows.
** Alternatively, use [https://www.microsoft.com/en-us/p/python-37/9nj46sx7x90p Python 3.7 from the Microsoft Store]. Note that <code>python</code> or <code>python3</code> must be used, not <code>py -3</code>.
* Install the latest version of [http://www.secfs.net/winfsp/download/ WinFsp].
* Install ninfs with <code>py -3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip</code>.
** With GUI support: <code>py -3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip#egg=ninfs[gui]</code>
 
=== macOS ===


#### Install with existing Python
(GUI in progress of being re-created.) Python does not have to be installed, but [https://osxfuse.github.io/ FUSE for macOS] is still required.
* Install the latest version of [Python 3](https://www.python.org/downloads/). The x86-64 version is preferred on 64-bit Windows.
* Alternatively, use [Python 3.7 from the Microsoft Store](https://www.microsoft.com/en-us/p/python-37/9nj46sx7x90p). Note that `python` or `python3` must be used, not `py -3`.
* Install the latest version of [WinFsp](http://www.secfs.net/winfsp/download/).
* Install ninfs with `py -3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip`.
* With GUI support: `py -3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip#egg=ninfs[gui]`


### macOS
==== Install with existing Python ====
(GUI in progress of being re-created.) Python does not have to be installed, but [FUSE for macOS](https://osxfuse.github.io/) is still required.


#### Install with existing Python
Versions of macOS supported by Apple are highly recommended. OS X Mavericks is the oldest version that should work.
Versions of macOS supported by Apple are highly recommended. OS X Mavericks is the oldest version that should work.


* Install the latest version of Python 3. The recommended way is [Homebrew](https://brew.sh). You can also use an installer from [python.org](https://www.python.org/downloads/) or a tool like [pyenv](https://github.com/pyenv/pyenv).
* Install the latest version of Python 3. The recommended way is [https://brew.sh Homebrew]. You can also use an installer from [https://www.python.org/downloads/ python.org] or a tool like [https://github.com/pyenv/pyenv pyenv].
* Install the latest version of [FUSE for macOS](https://github.com/osxfuse/osxfuse/releases/latest).
* Install the latest version of [https://github.com/osxfuse/osxfuse/releases/latest FUSE for macOS].
* Install ninfs with `python3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip`.
* Install ninfs with <code>python3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip</code>.
* With GUI support: `python3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip#egg=ninfs[gui]`
** With GUI support: <code>python3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/archive/master.zip#egg=ninfs[gui]</code>


### Linux
=== Linux ===
* Arch Linux: ninfs is available in the AUR: [normal](https://aur.archlinux.org/packages/ninfs/), [with gui](https://aur.archlinux.org/packages/ninfs-gui/), [git](https://aur.archlinux.org/packages/ninfs-git/), [git with gui](https://aur.archlinux.org/packages/ninfs-gui-git/)
 
* Recent distributions should have Python 3.6.1 or later pre-installed, or included in its repositories. If not, you can use an extra repository (e.g. [deadsnakes's PPA](https://launchpad.net/%7Edeadsnakes/+archive/ubuntu/ppa) for Ubuntu), [build from source](https://www.python.org/downloads/source/), or use a tool like [pyenv](https://github.com/pyenv/pyenv).
* Arch Linux: ninfs is available in the AUR: [https://aur.archlinux.org/packages/ninfs/ normal], [https://aur.archlinux.org/packages/ninfs-gui/ with gui], [https://aur.archlinux.org/packages/ninfs-git/ git], [https://aur.archlinux.org/packages/ninfs-gui-git/ git with gui]
* Recent distributions should have Python 3.6.1 or later pre-installed, or included in its repositories. If not, you can use an extra repository (e.g. [https://launchpad.net/%7Edeadsnakes/+archive/ubuntu/ppa deadsnakes's PPA] for Ubuntu), [https://www.python.org/downloads/source/ build from source], or use a tool like [https://github.com/pyenv/pyenv pyenv].
* Most distributions should have fuse enabled/installed by default. Use your package manager if it isn't.
* Most distributions should have fuse enabled/installed by default. Use your package manager if it isn't.
* Install ninfs with `python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/archive/2.0.zip`.
* Install ninfs with <code>python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/archive/2.0.zip</code>.
* `--user` is not needed if you are using a virtual environment.
** <code>--user</code> is not needed if you are using a virtual environment.
* With GUI support: `python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/archive/2.0.zip#egg=ninfs[gui]`
** With GUI support: <code>python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/archive/2.0.zip#egg=ninfs[gui]</code>
* You can add a desktop entry with `python3 -m ninfs --install-desktop-entry`. If you want to install to a location other than the default (`$XDG_DATA_HOME`), you can add another argument with a path like `/usr/local/share`.
* You can add a desktop entry with <code>python3 -m ninfs --install-desktop-entry</code>. If you want to install to a location other than the default (<code>$XDG_DATA_HOME</code>), you can add another argument with a path like <code>/usr/local/share</code>.
 
== Usage ==
 
=== Graphical user interface ===
 
A GUI can be used, if ninfs was installed with GUI support, by specifying the type to be <code>gui</code> (e.g. Windows: <code>py -3 -mninfs gui</code>, *nix: <code>python3 -mninfs gui</code>). The GUI controls mounting and unmounting.
 
=== Command line ===


## Usage
Run a mount script by using &quot;&quot;<code>mount_&lt;type&gt;</code>&quot;&quot; (e.g. <code>mount_cci game.3ds mountpoint</code>). Use <code>-h</code> to view arguments for a script.
### Graphical user interface
A GUI can be used, if ninfs was installed with GUI support, by specifying the type to be `gui` (e.g. Windows: `py -3 -mninfs gui`, \*nix: `python3 -mninfs gui`). The GUI controls mounting and unmounting.


### Command line
If it doesn't work, the other way is to use <code>&lt;python-cmd&gt; -mninfs &lt;type&gt;</code> (e.g. Windows: <code>py -3 -mninfs cci game.3ds mountpoint</code>, *nix: <code>python3 -mninfs cci game.3ds mountpoint</code>).
Run a mount script by using "`mount_<type>`" (e.g. `mount_cci game.3ds mountpoint`). Use `-h` to view arguments for a script.


If it doesn't work, the other way is to use `<python-cmd> -mninfs <type>` (e.g. Windows: `py -3 -mninfs cci game.3ds mountpoint`, \*nix: `python3 -mninfs cci game.3ds mountpoint`).
Windows users can use a drive letter like <code>F:</code> as a mountpoint, or use <code>*</code> and a drive letter will be automatically chosen.


Windows users can use a drive letter like `F:` as a mountpoint, or use `*` and a drive letter will be automatically chosen.
Developer-unit contents are encrypted with different keys, which can be used with <code>--dev</code> with CCI, CDN, CIA, NANDCTR, NCCH, and SD.


Developer-unit contents are encrypted with different keys, which can be used with `--dev` with CCI, CDN, CIA, NANDCTR, NCCH, and SD.
==== Unmounting ====


#### Unmounting
* Windows: Press <kbd>Ctrl</kbd> + <kbd>C</kbd> in the command prompt/PowerShell window.
* Windows: Press <kbd>Ctrl</kbd> + <kbd>C</kbd> in the command prompt/PowerShell window.
* macOS: Two methods:
* macOS: Two methods:
* Right-click on the mount and choose "Eject �_drive name_�".
** Right-click on the mount and choose &quot;&quot;Eject “''drive name''”&quot;&quot;.
* Run from terminal: `diskutil unmount /path/to/mount`
** Run from terminal: <code>diskutil unmount /path/to/mount</code>
* Linux: Run from terminal: `fusermount -u /path/to/mount`
* Linux: Run from terminal: <code>fusermount -u /path/to/mount</code>
 
=== Examples ===
 
* 3DS game card dump:<br />
<code>mount_cci game.3ds mountpoint</code>
* Contents downloaded from CDN:<br />
<code>mount_cdn cdn_directory mountpoint</code>
* CDN contents with a specific decrypted titlekey:<br />
<code>mount_cdn --dec-key 3E3E6769742E696F2F76416A65423C3C cdn_directory mountpoint</code>
* CIA:<br />
<code>mount_cia game.cia mountpoint</code>
* ExeFS:<br />
<code>mount_exefs exefs.bin mountpoint</code>
* 3DS NAND backup with <code>essential.exefs</code> embedded:<br />
<code>mount_nandctr nand.bin mountpoint</code>
* 3DS NAND backup with an OTP file (Counter is automatically generated):<br />
<code>mount_nandctr --otp otp.bin nand.bin mountpoint</code>
* 3DS NAND backup with OTP and CID files:<br />
<code>mount_nandctr --otp otp.bin --cid nand_cid.bin nand.bin mountpoint</code>
* 3DS NAND backup with OTP file and a CID hexstring:<br />
<code>mount_nandctr --otp otp.bin --cid 7468616E6B7334636865636B696E6721 nand.bin mountpoint</code>
* DSi NAND backup (Counter is automatically generated):<br />
<code>mount_nandtwl --console-id 4E696E74656E646F nand_dsi.bin mountpoint</code>
* DSi NAND backup with a Console ID hexstring and specified CID hexstring:<br />
<code>mount_nandtwl --console-id 4E696E74656E646F --cid 576879446F657344536945786973743F nand_dsi.bin mountpoint</code>
* DSi NAND backup with a Console ID file and specified CID file:<br />
<code>mount_nandtwl --console-id ConsoleID.bin --cid CID.bin nand_dsi.bin mountpoint</code>
* Switch NAND backup<br />
<code>mount_nandhac --keys prod.keys rawnand.bin mountpoint</code>
* Switch NAND backup in multiple parts<br />
<code>mount_nandhac --keys prod.keys -S rawnand.bin.00 mountpoint</code>
* NCCH container (.app, .cxi, .cfa, .ncch):<br />
<code>mount_ncch content.cxi mountpoint</code>
* RomFS:<br />
<code>mount_romfs romfs.bin mountpoint</code>
* <code>Nintendo 3DS</code> directory from an SD card:<br />
<code>mount_sd --movable movable.sed &quot;&quot;/path/to/Nintendo 3DS&quot;&quot; mountpoint</code>
* <code>Nintendo 3DS</code> directory from an SD card with an SD key hexstring:<br />
<code>mount_sd --sd-key 504C415900000000504F4B454D4F4E21 &quot;&quot;/path/to/Nintendo 3DS&quot;&quot; mountpoint</code>
* Nintendo DS ROM image (NDS/SRL, <code>mount_nds</code> also works):<br />
<code>mount_srl game.nds mountpoint</code>
* 3DSX homebrew application:<br />
<code>mount_threedsx boot.3dsx mountpoint</code>
 
== Useful tools ==
 
* wwylele's [https://github.com/wwylele/3ds-save-tool 3ds-save-tool] can be used to extract game saves and extra data (DISA and DIFF, respectively).
** wwylele's [https://github.com/wwylele/save3ds save3ds] is a FUSE mount for 3DS save files. Currently only supports macOS and Linux.
* [https://www.osforensics.com/tools/mount-disk-images.html OSFMount] for Windows can mount FAT12/FAT16 partitions in NAND backups.


### Examples
== Related tools ==
* 3DS game card dump:
`mount_cci game.3ds mountpoint`
* Contents downloaded from CDN:
`mount_cdn cdn_directory mountpoint`
* CDN contents with a specific decrypted titlekey:
`mount_cdn --dec-key 3E3E6769742E696F2F76416A65423C3C cdn_directory mountpoint`
* CIA:
`mount_cia game.cia mountpoint`
* ExeFS:
`mount_exefs exefs.bin mountpoint`
* 3DS NAND backup with `essential.exefs` embedded:
`mount_nandctr nand.bin mountpoint`
* 3DS NAND backup with an OTP file (Counter is automatically generated):
`mount_nandctr --otp otp.bin nand.bin mountpoint`
* 3DS NAND backup with OTP and CID files:
`mount_nandctr --otp otp.bin --cid nand_cid.bin nand.bin mountpoint`
* 3DS NAND backup with OTP file and a CID hexstring:
`mount_nandctr --otp otp.bin --cid 7468616E6B7334636865636B696E6721 nand.bin mountpoint`
* DSi NAND backup (Counter is automatically generated):
`mount_nandtwl --console-id 4E696E74656E646F nand_dsi.bin mountpoint`
* DSi NAND backup with a Console ID hexstring and specified CID hexstring:
`mount_nandtwl --console-id 4E696E74656E646F --cid 576879446F657344536945786973743F nand_dsi.bin mountpoint`
* DSi NAND backup with a Console ID file and specified CID file:
`mount_nandtwl --console-id ConsoleID.bin --cid CID.bin nand_dsi.bin mountpoint`
* Switch NAND backup
`mount_nandhac --keys prod.keys rawnand.bin mountpoint`
* Switch NAND backup in multiple parts
`mount_nandhac --keys prod.keys -S rawnand.bin.00 mountpoint`
* NCCH container (.app, .cxi, .cfa, .ncch):
`mount_ncch content.cxi mountpoint`
* RomFS:
`mount_romfs romfs.bin mountpoint`
* `Nintendo 3DS` directory from an SD card:
`mount_sd --movable movable.sed "/path/to/Nintendo 3DS" mountpoint`
* `Nintendo 3DS` directory from an SD card with an SD key hexstring:
`mount_sd --sd-key 504C415900000000504F4B454D4F4E21 "/path/to/Nintendo 3DS" mountpoint`
* Nintendo DS ROM image (NDS/SRL, `mount_nds` also works):
`mount_srl game.nds mountpoint`
* 3DSX homebrew application:
`mount_threedsx boot.3dsx mountpoint`


## Useful tools
* roothorick's [https://gitlab.com/roothorick/busehac BUSEHAC] is a Linux driver for encrypted Nintendo Switch NANDs.
* wwylele's [3ds-save-tool](https://github.com/wwylele/3ds-save-tool) can be used to extract game saves and extra data (DISA and DIFF, respectively).
* Maschell's [https://github.com/Maschell/fuse-wiiu fuse-wiiu] can be used to mount Wii U contents.
* wwylele's [save3ds](https://github.com/wwylele/save3ds) is a FUSE mount for 3DS save files. Currently only supports macOS and Linux.
* koolkdev's [https://github.com/koolkdev/wfslib wfslib] has wfs-fuse to mount the Wii U mlc dumps and usb devices.
* [OSFMount](https://www.osforensics.com/tools/mount-disk-images.html) for Windows can mount FAT12/FAT16 partitions in NAND backups.


## Related tools
= License/Credits =
* roothorick's [BUSEHAC](https://gitlab.com/roothorick/busehac) is a Linux driver for encrypted Nintendo Switch NANDs.
* Maschell's [fuse-wiiu](https://github.com/Maschell/fuse-wiiu) can be used to mount Wii U contents.
* koolkdev's [wfslib](https://github.com/koolkdev/wfslib) has wfs-fuse to mount the Wii U mlc dumps and usb devices.


# License/Credits
* <code>ninfs</code> is under the MIT license.
* `ninfs` is under the MIT license.
** <code>fuse.py</code> is under the ISC license ([https://github.com/fusepy/fusepy/blob/b5f87a1855119d55c755c2c4c8b1da346365629d/setup.py taken from <code>setup.py</code>]).
* `fuse.py` is under the ISC license ([taken from `setup.py`](https://github.com/fusepy/fusepy/blob/b5f87a1855119d55c755c2c4c8b1da346365629d/setup.py)).
** <code>hac/aes.cpp</code> and <code>hac/aes.hpp</code> are from @openluopworld's [https://github.com/openluopworld/aes_128 aes_128] commit <code>b5b7f55</code>, and uses the MIT License.
* `hac/aes.cpp` and `hac/aes.hpp` are from @openluopworld's [aes_128](https://github.com/openluopworld/aes_128) commit `b5b7f55`, and uses the MIT License.
** <code>hac/_crypto.cpp</code> AES-XTS part by @luigoalma, based on @plutooo's [https://gist.github.com/plutooo/fd4b22e7f533e780c1759057095d7896 crypto module]; Python module implementation initially by me(@ihaveamac).
* `hac/_crypto.cpp` AES-XTS part by @luigoalma, based on @plutooo's [crypto module](https://gist.github.com/plutooo/fd4b22e7f533e780c1759057095d7896); Python module implementation initially by me(@ihaveamac).


Special thanks to @Stary2001 for help with NAND crypto (especially TWL), and @d0k3 for SD crypto.
Special thanks to @Stary2001 for help with NAND crypto (especially TWL), and @d0k3 for SD crypto.


OTP code is from [Stary2001/3ds_tools](https://github.com/Stary2001/3ds_tools/blob/10b74fee927f66865b97fd73b3e7392e81a3099f/three_ds/aesengine.py), and is under the MIT license.
OTP code is from [https://github.com/Stary2001/3ds_tools/blob/10b74fee927f66865b97fd73b3e7392e81a3099f/three_ds/aesengine.py Stary2001/3ds_tools], and is under the MIT license.


Warning: Using the GUI on macOS 10.14.6 will crash WindowServer and force you back to the login screen. The issue can be followed here: http://github.com/pyinstaller/pyinstaller/issues/4334
Warning: Using the GUI on macOS 10.14.6 will crash WindowServer and force you back to the login screen. The issue can be followed here: [http://github.com/pyinstaller/pyinstaller/issues/4334 http://github.com/pyinstaller/pyinstaller/issues/4334]


Changes since v1.6.1
Changes since v1.6.1 SD: Properly decrypt contents of backup folder NANDHAC: Support &quot;&quot;raw&quot;&quot; partition-based emuMMC images with -R/--raw-emummc Display application name for CIA, CCI, and NCCH in mount title on macOS Allow assuming contents are decrypted for CCI and NCCH Major internal changes and rewriting Remove titledir mount - better tools will be coming later to search for installed titles Other things, probably Changes since v1.7b1 Display application name for CCI in mount title on macOS Allow assuming contents are decrypted for CCI and NCCH Interested in filling out a quick survey on how you use ninfs? Click here!
SD: Properly decrypt contents of backup folder
NANDHAC: Support "raw" partition-based emuMMC images with -R/--raw-emummc
Display application name for CIA, CCI, and NCCH in mount title on macOS
Allow assuming contents are decrypted for CCI and NCCH
Major internal changes and rewriting
Remove titledir mount - better tools will be coming later to search for installed titles
Other things, probably
Changes since v1.7b1
Display application name for CCI in mount title on macOS
Allow assuming contents are decrypted for CCI and NCCH
Interested in filling out a quick survey on how you use ninfs? Click here!


Important note
Important note This is not a full release, so some things may still be broken. Please file issues if this happens.
This is not a full release, so some things may still be broken. Please file issues if this happens.


NAND and SD mounts allow writing. Keep backups before writing to these, in the event an unknown bug corrupts data.
NAND and SD mounts allow writing. Keep backups before writing to these, in the event an unknown bug corrupts data.
Line 204: Line 212:
The signatures are created with the PGP key 90725113CA578EAA.
The signatures are created with the PGP key 90725113CA578EAA.


Usage
Usage Windows and macOS users can download the standalone applications attached to this release, which works without needing Python installed. WinFsp for Windows or FUSE for macOS must still be installed.
Windows and macOS users can download the standalone applications attached to this release, which works without needing Python installed. WinFsp for Windows or FUSE for macOS must still be installed.


Linux users (and users who prefer to use their installed Python) can install this release via pip, or by downloading the "Source code" archive. Python 3.6.1 or later is required. Read the README for more setup and usage details.
Linux users (and users who prefer to use their installed Python) can install this release via pip, or by downloading the &quot;&quot;Source code&quot;&quot; archive. Python 3.6.1 or later is required. Read the README for more setup and usage details.


<pre>
Command line install
Command line install
Windows
Windows
Line 222: Line 230:
--user is not required if you are using a virtualenv.
--user is not required if you are using a virtualenv.
With GUI support: python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip#egg=ninfs[gui]
With GUI support: python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip#egg=ninfs[gui]
</pre>

Revision as of 12:22, 16 April 2020

Template:Infobox 3DS homebrew

ninfs

ninfs (formerly fuse-3ds) is a FUSE program to extract data from Nintendo game consoles. It works by presenting a virtual filesystem with the contents of your games, NAND, or SD card contents, and you can browse and copy out just the files that you need.

Windows, macOS, and Linux are supported.

<img src=""ciamount-mac.png"" width=""882"">

Supported types

  • Nintendo 3DS:
    • CTR Cart Image ("".3ds"", "".cci"")
    • CDN contents (""cetk"", ""tmd"", and contents)
    • CTR Importable Archive ("".cia"")
    • Executable Filesystem ("".exefs"", ""exefs.bin"")
    • Nintendo 3DS NAND backup (""nand.bin"")
    • NCCH ("".cxi"", "".cfa"", "".ncch"", "".app"")
    • Read-only Filesystem ("".romfs"", ""romfs.bin"")
    • SD Card Contents (""Nintendo 3DS"" from SD)
    • 3DSX Homebrew ("".3dsx"")
  • Nintendo DS / DSi
    • Nintendo DSi NAND backup (""nand_dsi.bin"")
    • Nintendo DS ROM image ("".nds"", "".srl"")
  • Nintendo Switch
    • Nintendo Switch NAND backup (""rawnand.bin"")

Example uses

  • Mount a NAND backup and browse CTRNAND, TWLNAND, and others, and write back to them without having to extract and decrypt them first.
  • Browse decrypted SD card contents. Dump installed games and saves, or copy contents between two system's SD contents.
  • Extract a game's files out of a CIA, CCI ("".3ds""), NCCH, RomFS, raw CDN contents, just by mounting them and browsing its files. Or use the virtual decrypted file and start playing the game in Citra right away.

Setup

For 3DS types, The ARM9 bootROM is required. You can dump it using boot9strap, which can be set up by 3DS Hacks Guide. To dump the bootROM, hold START+SELECT+X when you boot up your 3DS. It is checked in order of:

  • --boot9 argument (if set)
  • BOOT9_PATH environment variable (if set)
  • %APPDATA%\3ds\boot9.bin (Windows-specific)
  • ~/Library/Application Support/3ds/boot9.bin (macOS-specific)
  • ~/.3ds/boot9.bin
  • ~/3ds/boot9.bin

boot9_prot.bin can also be used in all of these locations.

""~"" means the user's home directory. ""~/3ds"" would mean /Users/username/3ds on macOS and C:\Users\username\3ds on Windows.

CDN, CIA, and NCCH mounting may need SeedDB for mounting NCCH containers of newer games (2015+) that use seeds.
SeedDB is checked in order of:

  • --seeddb argument (if set)
  • SEEDDB_PATH environment variable (if set)
  • %APPDATA%\3ds\seeddb.bin (Windows-specific)
  • ~/Library/Application Support/3ds/seeddb.bin (macOS-specific)
  • ~/.3ds/seeddb.bin
  • ~/3ds/seeddb.bin

Python 3.6.1+ and pycryptodomex are required. PySide2 is required for the GUI.

  • fusepy is pre-included until refuse has a fully stable release.

Windows

Windows 7 or later is required.

(GUI in progress of being re-created.) Python does not have to be installed, but WinFsp is still required.

Install with existing Python

macOS

(GUI in progress of being re-created.) Python does not have to be installed, but FUSE for macOS is still required.

Install with existing Python

Versions of macOS supported by Apple are highly recommended. OS X Mavericks is the oldest version that should work.

Linux

  • Arch Linux: ninfs is available in the AUR: normal, with gui, git, git with gui
  • Recent distributions should have Python 3.6.1 or later pre-installed, or included in its repositories. If not, you can use an extra repository (e.g. deadsnakes's PPA for Ubuntu), build from source, or use a tool like pyenv.
  • Most distributions should have fuse enabled/installed by default. Use your package manager if it isn't.
  • Install ninfs with python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/archive/2.0.zip.
  • You can add a desktop entry with python3 -m ninfs --install-desktop-entry. If you want to install to a location other than the default ($XDG_DATA_HOME), you can add another argument with a path like /usr/local/share.

Usage

Graphical user interface

A GUI can be used, if ninfs was installed with GUI support, by specifying the type to be gui (e.g. Windows: py -3 -mninfs gui, *nix: python3 -mninfs gui). The GUI controls mounting and unmounting.

Command line

Run a mount script by using ""mount_<type>"" (e.g. mount_cci game.3ds mountpoint). Use -h to view arguments for a script.

If it doesn't work, the other way is to use <python-cmd> -mninfs <type> (e.g. Windows: py -3 -mninfs cci game.3ds mountpoint, *nix: python3 -mninfs cci game.3ds mountpoint).

Windows users can use a drive letter like F: as a mountpoint, or use * and a drive letter will be automatically chosen.

Developer-unit contents are encrypted with different keys, which can be used with --dev with CCI, CDN, CIA, NANDCTR, NCCH, and SD.

Unmounting

  • Windows: Press Ctrl + C in the command prompt/PowerShell window.
  • macOS: Two methods:
    • Right-click on the mount and choose ""Eject “drive name”"".
    • Run from terminal: diskutil unmount /path/to/mount
  • Linux: Run from terminal: fusermount -u /path/to/mount

Examples

  • 3DS game card dump:

mount_cci game.3ds mountpoint

  • Contents downloaded from CDN:

mount_cdn cdn_directory mountpoint

  • CDN contents with a specific decrypted titlekey:

mount_cdn --dec-key 3E3E6769742E696F2F76416A65423C3C cdn_directory mountpoint

  • CIA:

mount_cia game.cia mountpoint

  • ExeFS:

mount_exefs exefs.bin mountpoint

  • 3DS NAND backup with essential.exefs embedded:

mount_nandctr nand.bin mountpoint

  • 3DS NAND backup with an OTP file (Counter is automatically generated):

mount_nandctr --otp otp.bin nand.bin mountpoint

  • 3DS NAND backup with OTP and CID files:

mount_nandctr --otp otp.bin --cid nand_cid.bin nand.bin mountpoint

  • 3DS NAND backup with OTP file and a CID hexstring:

mount_nandctr --otp otp.bin --cid 7468616E6B7334636865636B696E6721 nand.bin mountpoint

  • DSi NAND backup (Counter is automatically generated):

mount_nandtwl --console-id 4E696E74656E646F nand_dsi.bin mountpoint

  • DSi NAND backup with a Console ID hexstring and specified CID hexstring:

mount_nandtwl --console-id 4E696E74656E646F --cid 576879446F657344536945786973743F nand_dsi.bin mountpoint

  • DSi NAND backup with a Console ID file and specified CID file:

mount_nandtwl --console-id ConsoleID.bin --cid CID.bin nand_dsi.bin mountpoint

  • Switch NAND backup

mount_nandhac --keys prod.keys rawnand.bin mountpoint

  • Switch NAND backup in multiple parts

mount_nandhac --keys prod.keys -S rawnand.bin.00 mountpoint

  • NCCH container (.app, .cxi, .cfa, .ncch):

mount_ncch content.cxi mountpoint

  • RomFS:

mount_romfs romfs.bin mountpoint

  • Nintendo 3DS directory from an SD card:

mount_sd --movable movable.sed ""/path/to/Nintendo 3DS"" mountpoint

  • Nintendo 3DS directory from an SD card with an SD key hexstring:

mount_sd --sd-key 504C415900000000504F4B454D4F4E21 ""/path/to/Nintendo 3DS"" mountpoint

  • Nintendo DS ROM image (NDS/SRL, mount_nds also works):

mount_srl game.nds mountpoint

  • 3DSX homebrew application:

mount_threedsx boot.3dsx mountpoint

Useful tools

  • wwylele's 3ds-save-tool can be used to extract game saves and extra data (DISA and DIFF, respectively).
    • wwylele's save3ds is a FUSE mount for 3DS save files. Currently only supports macOS and Linux.
  • OSFMount for Windows can mount FAT12/FAT16 partitions in NAND backups.

Related tools

  • roothorick's BUSEHAC is a Linux driver for encrypted Nintendo Switch NANDs.
  • Maschell's fuse-wiiu can be used to mount Wii U contents.
  • koolkdev's wfslib has wfs-fuse to mount the Wii U mlc dumps and usb devices.

License/Credits

  • ninfs is under the MIT license.
    • fuse.py is under the ISC license (taken from setup.py).
    • hac/aes.cpp and hac/aes.hpp are from @openluopworld's aes_128 commit b5b7f55, and uses the MIT License.
    • hac/_crypto.cpp AES-XTS part by @luigoalma, based on @plutooo's crypto module; Python module implementation initially by me(@ihaveamac).

Special thanks to @Stary2001 for help with NAND crypto (especially TWL), and @d0k3 for SD crypto.

OTP code is from Stary2001/3ds_tools, and is under the MIT license.

Warning: Using the GUI on macOS 10.14.6 will crash WindowServer and force you back to the login screen. The issue can be followed here: http://github.com/pyinstaller/pyinstaller/issues/4334

Changes since v1.6.1 SD: Properly decrypt contents of backup folder NANDHAC: Support ""raw"" partition-based emuMMC images with -R/--raw-emummc Display application name for CIA, CCI, and NCCH in mount title on macOS Allow assuming contents are decrypted for CCI and NCCH Major internal changes and rewriting Remove titledir mount - better tools will be coming later to search for installed titles Other things, probably Changes since v1.7b1 Display application name for CCI in mount title on macOS Allow assuming contents are decrypted for CCI and NCCH Interested in filling out a quick survey on how you use ninfs? Click here!

Important note This is not a full release, so some things may still be broken. Please file issues if this happens.

NAND and SD mounts allow writing. Keep backups before writing to these, in the event an unknown bug corrupts data.

There is a Windows tutorial for ninfs on GBAtemp. README also explains how to use it via command line and on non-Windows platforms. If you are unsure about something, you can ask at Nintendo Homebrew on Discord, or the GBAtemp thread.

The signatures are created with the PGP key 90725113CA578EAA.

Usage Windows and macOS users can download the standalone applications attached to this release, which works without needing Python installed. WinFsp for Windows or FUSE for macOS must still be installed.

Linux users (and users who prefer to use their installed Python) can install this release via pip, or by downloading the ""Source code"" archive. Python 3.6.1 or later is required. Read the README for more setup and usage details.

Command line install
Windows
py -3 -mpip install --upgrade https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip
With GUI support: py -3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip#egg=ninfs[gui]
macOS
FUSE for macOS is required.

python3 -mpip install --upgrade https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip
With GUI support: python3 -m pip install --upgrade https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip#egg=ninfs[gui]
Linux
python3 -mpip install --upgrade --user https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip
--user is not required if you are using a virtualenv.
With GUI support: python3 -m pip install --upgrade --user https://github.com/ihaveamac/ninfs/releases/download/v1.7b2/ninfs-1.7b2-src.zip#egg=ninfs[gui]

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