The MemoryWindow.cpp strings should be the same as the
MemoryCheckDlg.cpp strings so that translators don't
have to translate very similar strings twice.
Also adding i18n comments. These strings are *very* easy
to misinterpret in my opinion.
This is unsafe, because the NAND should not be accessed and messed with
while it is being used. In fact, this kind of inappropriate behaviour
will not be possible when we get NAND image support.
And even if there were no safety issue, there is still no reason
a *getter* function should *do* something that has lasting effects
on user data. GetWiiFSPath() should *just* return a path!
This adds code to update the PPC's UID and GID, which fixes a
regression with the system menu. Ideally, we would simply rely on IOS's
ES_Launch here and not duplicate the logic here, but we cannot do that
properly until the direct WAD launch hack is dropped, *and* until the
IOS changes that would enable internal calls are ready.
Since this fixes a semi-important regression with managing saves from
the SM, and the duplication is not too terrible, I believe it is a good
idea to get this fixed right now to avoid affecting users too much.
I do plan to fix this properly in the future.
* CNANDContentManager does things that are absolutely useless. In
particular, it parses the ticket, the TMD, reads contents, etc.
when we only need to remove the title directory.
* This means it will fail if the ticket cannot be found, when that
should not be the case.
* This also obviously caused DeleteTitle to be incredibly inefficient.
* We are already removing the title directory later in the function,
as CNANDContentManager does not even delete titles correctly.
DeleteTitle != DeleteTitleContents.
* It should take a ticket view, not a title ID.
* It's missing a lot of checks.
* It's not deleting tickets properly.
* It's not deleting only the ticket it needs to delete.
* It should not return -1017 when the ticket doesn't exist.
* It's not returning the proper error code when a read/write fails.
* It's not cleaning up the ticket directory if there is nothing left.
This commit fixes its implementation.
* Supporting other ticket types makes the logic slightly more complex.
* There have been no such non-RSA2048 tickets seen during the Wii's
lifetime.
* The Wii's IOS doesn't even have support for them.
Stops CMake from saying "BlueZ NOT found, disabling bluetooth support"
on other OSes. Windows, macOS, and Android support Bluetooth using other
libraries. I'm not sure if non-Linux, non-Android Unices (like FreeBSD)
need another message?
The accuracy doesn't match ppc, and worse, it doesn't set the error flags if the input is zero.
Lets stop to ship broken instructions, so right now, the interpreter is the closest one.
Fixes warning:
```
Source/Core/DiscIO/NANDImporter.cpp:55:17: warning: format specifies type 'unsigned long' but the argument has type 'u64' (aka 'unsigned long long') [-Wformat]
file.GetSize(), NAND_BIN_SIZE);
^~~~~~~~~~~~~~
1 warning generated.
```
This changes some parts of IOS (actually just ES) to reuse more crypto
code from IOSC or Common::AES.
TicketReader still returns the title key directly as opposed to having
ES use IOSC directly to avoid duplicating the title key IV stuff.
Side effects:
* A nasty unbounded array access bug is now fixed.
* ES_Decrypt/ES_Encrypt now returns sane results for keys other than
the SD key.
* Titles with a Korean ticket can now be decrypted properly.
And in the future, we can look into implementing ioctlv 0x3c and 0x3d
now that we have the proper "infra" for IOSC calls.
This prevents the IOS crypto code and keys from being spread over
the codebase. Things only have to be implemented once, and can be
used everywhere from the IOS code.
Additionally, since ES exposes some IOSC calls directly (DeleteObject
and Encrypt/Decrypt), we need this for proper emulation.
Currently, this only supports AES key objects.
Netplay uses a blank NAND, which means that homebrew launchers like
Gecko will force users to install IOSes.
Expecting netplay users to have a proper NAND setup is unrealistic,
and we don't actually give them a good way of syncing NANDs, so
let's extend the hack to netplay/TAS until we have a better way
of dealing with the issue.
This changes the main IOS code (roughly the equivalent of the kernel)
to a class instead of being a set of free functions + tons of static
variables.
The reason for this change is that keeping tons of static variables
like that prevents us from making an IOS instance and reusing IOS
code easily.
Converting the IOS code to a class also allows us to mostly decouple
IOS from the PPC emulation.
The more interesting changes are in Core/IOS/IOS. Everything else is
mostly just boring stuff required by this change...
* Because the devices themselves call back to the main IOS code
for various things (getting the current version, replying to a
request, and other syscall-like functions), just like processes in
IOS call kernel syscalls, we have to pass a reference to the kernel
to anything that uses IOS syscalls.
* Change DoState to save device names instead of device IDs to simplify
AddDevice() and get rid of an ugly static count.
* Change ES_Launch's ack to be sent at IOS boot, now that we can do
this properly.
It only marks a string for translation. It doesn't actually do anything
at runtime, so the string will always be displayed in English. Even if
we would've had a way to make the translation work, we shouldn't
translate this, because OSD doesn't support non-ASCII characters.
Some strings were marked with _trans in some places but not
others. This commit adds extra _trans markers so that the
usage of _trans is consistent.
This shouldn't have any effect on which strings actually get
translated. (Note that _trans doesn't do anything at runtime.)
I also added a few new i18n comments.
std::string's operator+ will handle this. Also move std::string to where
they're actually needed. There's no need to construct an unnecessary
string if the first failure case occurs.