JIT documentation!

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# CPU Documentation # CPU Documentation
## Code ## The JIT
Xenia uses a dynamic recompiler to recompile PPC instructions to host ![JIT Diagram](images/CPU-JIT.png?raw=true)
architecture instructions at runtime. Functions are converted as they
are called by the guest/host and stored in a code cache. Currently, the
only backend that exists is the x64 backend.
Unfortunately, one problem with this approach is that code usually never The JIT is the core of Xenia. It translates Xenon PowerPC code into native
ends up in the same spot across reruns due to multithreading. Host code code runnable on the host computer.
may also morph depending on which spots of a function are called first.
There are 3 phases to translation:
1. Translation to IR (intermediate representation)
2. IR compilation/optimization
3. Backend emission
PowerPC instructions are translated to Xenia's intermediate representation
format in src/xenia/cpu/ppc/ppc_emit_*.cc (e.g. processor control is done in
[ppc_emit_control.cc](../src/xenia/cpu/ppc/ppc_emit_control.cc)). HIR opcodes
are relatively simple opcodes such that any host can define an implementation.
After the HIR is generated, it is ran through a compiler to prep it for generation.
The compiler is ran in a series of passes, the order of which is defined in
[ppc_translator.cc](../src/xenia/cpu/ppc/ppc_translator.cc). Some passes are
essential to the successful generation, while others are merely for optimization
purposes. Compiler passes are defined in src/xenia/cpu/compiler/passes with
descriptive class names.
Finally, the backend consumes the HIR and emits code that runs natively on the
host. Currently, the only backend that exists is the x64 backend, with all the
emission done in
[x64_sequences.cc](../src/xenia/cpu/backend/x64/x64_sequences.cc).
## ABI
Xenia guest functions are not directly callable, but rather must be called
through APIs provided by Xenia. Xenia will first execute a thunk to transition
the host context to a state dependent on the JIT backend, and that will call the
guest code.
### x64
Transition thunks defined in [x64_backend.cc](../src/xenia/cpu/backend/x64/x64_backend.cc#L389).
Registers are stored on the stack as defined by [StackLayout::Thunk](../src/xenia/cpu/backend/x64/x64_stack_layout.h#L96)
for later transitioning back to the host.
Some registers are reserved for usage by the JIT to store temporary variables.
See: [X64Emitter::gpr_reg_map_ and X64Emitter::xmm_reg_map_](../src/xenia/cpu/backend/x64/x64_backend.cc#L57).
#### Integer Registers
Register | Usage
--- | ---
RAX | Scratch
RBX | JIT temp
RCX | Scratch
RDX | Scratch
RSP | Stack Pointer
RBP | Unused
RSI | PowerPC Context
RDI | Virtual Memory Base
R8-R11 | Unused (parameters)
R12-R15 | JIT temp
#### Floating Point Registers
Register | Usage
--- | ---
XMM0-XMM5 | Scratch
XMM6-XMM15 | JIT temp
## Memory ## Memory
@ -55,7 +110,7 @@ Programs are still allowed to use 64-bit PowerPC instructions, and registers
are 64-bit as well, but 32-bit instructions will run in 32-bit mode. are 64-bit as well, but 32-bit instructions will run in 32-bit mode.
The CPU is largely similar to the PPC part in the PS3, so Cell documents The CPU is largely similar to the PPC part in the PS3, so Cell documents
often line up for the core instructions. The 360 adds some additional AltiVec often line up for the core instructions. The 360 adds some additional AltiVec
instructions, though,which are only documented in a few places (like the gcc source code, etc). instructions, though, which are only documented in a few places (like the gcc source code, etc).
* [Free60 Info](http://www.free60.org/Xenon_\(CPU\)) * [Free60 Info](http://www.free60.org/Xenon_\(CPU\))
* [Power ISA docs](https://www.power.org/wp-content/uploads/2012/07/PowerISA_V2.06B_V2_PUBLIC.pdf) (aka 'PowerISA') * [Power ISA docs](https://www.power.org/wp-content/uploads/2012/07/PowerISA_V2.06B_V2_PUBLIC.pdf) (aka 'PowerISA')

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