This fix the awkwardness of having the symbols detection, parsing and loading related logs be in OS HLE while they don't have anything to do with that.
The OV bit is non-sticky. Therefore, after an overflow-enabled
instruction executes, if an overflow does *not* occur, then OV is
cleared. SO is sticky however, so it staying set in this case is
correct.
With this, JitAsm code doesn't have any reliance on the JIT global
variable. This means the core JIT64 code no longer relies on said
global at all. The Jit64 common code, however, still has some offenders.
Notably, EmuCodeBlock and Jit64AsmCommon are the remaining places in the
common code that make use of the global variable.
The AutoUpdate module is a generic update checker mechanism which can be
used by UI backends to trigger an auto-update check as well as the
actual update process.
Currently only configurable through .ini and the Qt implementation is
completely placeholder-y -- blocking the main thread on a network
request on startup, etc.
Ensures that upon construction of a JitBase instance, that all
underlying members within the option and state structs are guaranteed
to be initialized.
This prevents potentially using a member uninitialized in some form.
Also amends the condition that was being checked. Previously it was
checking if the destination register value was 0x80000000, however it's
actually the source register that should be checked.
This macro (that has unfortunately become the de-facto way of
introducing targets) has a lot of disadvantages that outweigh the fact
that you avoid writing two extra lines of CMake script.
- It encourages the use of variables. In a build system the last thing
we want to care about is mutable state that can be avoided.
- It only handles linking in the libraries and nothing else. It's a
laziness macro.
- We should be explicit about what we're doing by introducing the target
first, not last.
This gets the ball rolling by migrating Core off the macro. Note that
this is essentially 1-to-1 unrolling of the macro, therefore we're
still linking in all libraries as public, even though that may not be
necessary.
This can be revisited once everything is off the macro for a quicker
transition period.
Trims the direct usages of the global by making the code go through the
JIT interface (where it should have been going in the first place).
This also removes direct JIT header dependencies from the breakpoints as
well. Now, no code uses the JIT global other than JIT code itself, and
the unit tests.
All of these with the record bit set update condition register 1 with the
contents of the FPSCR's FX, FEX, VX and OX bits.
Helper_UpdateCR1() does exactly that, so we use it here to perform this
for us.
This is only ever memset to zero and never used again.
This also gets rid of an instance of undefined behavior considering the
draft standard for C++17 (N4659) states at [dcl.type.cv] paragraph 5:
"
The semantics of an access through a volatile glvalue are implementation-defined.
If an attempt is made to access an object defined with a volatile-qualified type
through the use of a non-volatile glvalue, the behavior is undefined.
"
This prevents Dolphin from crashing when the emulated software crashes.
AFAIK, there is absolutely no performance to enabling this with the
x64 JIT.
Eventually, we should probably just remove bMMU
(https://github.com/dolphin-emu/dolphin/pull/1831). We can't do that
yet because of the ARM JIT.
A very basic hardware test shows that the ARMMSG doesn't change until
IOS replies. (People could have disassembled IOS to verify this too...)
Console:
sending request at 00034640 - ARMMSG 133e0fa0
00000000000000000000000000000010(ack) - ARMMSG 133e0fa0
00000000000000000000000000000100(reply) - ARMMSG 00034640
Dolphin, prior to this fix:
sending request (00034640) - ARMMSG 133e0fa0
00000000000000000000000000000011(ack) - ARMMSG 00034640
00000000000000000000000000000100(reply) - ARMMSG 00034640
Dolphin, after this fix:
sending request at 00034640 - ARMMSG 133e0fa0
00000000000000000000000000000011(ack) - ARMMSG 133e0fa0
00000000000000000000000000000100(reply) - ARMMSG 00034640
(Yes, note that the X1 bit is still set. This is a bug that I will
fix in the next commit.)
The IPC interrupt is triggered when IY1/IY2 is set and Y1/Y2 is written
to even when this results in clearing the bit.
This shouldn't change anything in practice but it's a difference
that Dolphin wasn't taking into account, which made me waste some time
when I was writing a hwtest :/
This adjusts IOS IPC timing to be closer to actual hardware:
* Emulate the IPC interrupt delay. On a real Wii, from the point of
view of the PPC, the IPC interrupt appears to fire about 100 TB ticks
after Y1/Y2 is seen.
* Fix the IPC acknowledgement delay. Dolphin was much, much too fast.
* Fix Device::GetDefaultReply to return more reasonable delays. Again,
Dolphin was way too fast. We now use a more realistic, average reply
time for most requests.
Note: the previous result from https://dolp.in/pr6374 is flawed.
GetTicketViews definitely takes more than 25µs to reply.
The reason the reply delay was so low is because an invalid
parameter was passed to the libogc wrapper, which causes it to
immediately return an error code (-4100).
* Fix the response delay for various replies that come from the kernel:
fd table full, unknown resource manager / device, invalid fd,
unknown IPC command.
Source: https://github.com/leoetlino/hwtests/blob/af320e4/iostest/ipc_timing.cpp
