using ARMeilleure.State; using Ryujinx.Memory; using System; using System.Runtime.InteropServices; using System.Runtime.Versioning; namespace Ryujinx.Cpu.AppleHv { [SupportedOSPlatform("macos")] class HvExecutionContextVcpu : IHvExecutionContext { private static readonly MemoryBlock _setSimdFpRegFuncMem; private delegate HvResult SetSimdFpReg(ulong vcpu, HvSimdFPReg reg, in V128 value, IntPtr funcPtr); private static readonly SetSimdFpReg _setSimdFpReg; private static readonly IntPtr _setSimdFpRegNativePtr; static HvExecutionContextVcpu() { // .NET does not support passing vectors by value, so we need to pass a pointer and use a native // function to load the value into a vector register. _setSimdFpRegFuncMem = new MemoryBlock(MemoryBlock.GetPageSize()); _setSimdFpRegFuncMem.Write(0, 0x3DC00040u); // LDR Q0, [X2] _setSimdFpRegFuncMem.Write(4, 0xD61F0060u); // BR X3 _setSimdFpRegFuncMem.Reprotect(0, _setSimdFpRegFuncMem.Size, MemoryPermission.ReadAndExecute); _setSimdFpReg = Marshal.GetDelegateForFunctionPointer(_setSimdFpRegFuncMem.Pointer); if (NativeLibrary.TryLoad(HvApi.LibraryName, out IntPtr hvLibHandle)) { _setSimdFpRegNativePtr = NativeLibrary.GetExport(hvLibHandle, nameof(HvApi.hv_vcpu_set_simd_fp_reg)); } } public ulong Pc { get { HvApi.hv_vcpu_get_reg(_vcpu, HvReg.PC, out ulong pc).ThrowOnError(); return pc; } set { HvApi.hv_vcpu_set_reg(_vcpu, HvReg.PC, value).ThrowOnError(); } } public ulong ElrEl1 { get { HvApi.hv_vcpu_get_sys_reg(_vcpu, HvSysReg.ELR_EL1, out ulong elr).ThrowOnError(); return elr; } set { HvApi.hv_vcpu_set_sys_reg(_vcpu, HvSysReg.ELR_EL1, value).ThrowOnError(); } } public ulong EsrEl1 { get { HvApi.hv_vcpu_get_sys_reg(_vcpu, HvSysReg.ESR_EL1, out ulong esr).ThrowOnError(); return esr; } set { HvApi.hv_vcpu_set_sys_reg(_vcpu, HvSysReg.ESR_EL1, value).ThrowOnError(); } } public long TpidrEl0 { get { HvApi.hv_vcpu_get_sys_reg(_vcpu, HvSysReg.TPIDR_EL0, out ulong tpidrEl0).ThrowOnError(); return (long)tpidrEl0; } set { HvApi.hv_vcpu_set_sys_reg(_vcpu, HvSysReg.TPIDR_EL0, (ulong)value).ThrowOnError(); } } public long TpidrroEl0 { get { HvApi.hv_vcpu_get_sys_reg(_vcpu, HvSysReg.TPIDRRO_EL0, out ulong tpidrroEl0).ThrowOnError(); return (long)tpidrroEl0; } set { HvApi.hv_vcpu_set_sys_reg(_vcpu, HvSysReg.TPIDRRO_EL0, (ulong)value).ThrowOnError(); } } public uint Pstate { get { HvApi.hv_vcpu_get_reg(_vcpu, HvReg.CPSR, out ulong cpsr).ThrowOnError(); return (uint)cpsr; } set { HvApi.hv_vcpu_set_reg(_vcpu, HvReg.CPSR, (ulong)value).ThrowOnError(); } } public uint Fpcr { get { HvApi.hv_vcpu_get_reg(_vcpu, HvReg.FPCR, out ulong fpcr).ThrowOnError(); return (uint)fpcr; } set { HvApi.hv_vcpu_set_reg(_vcpu, HvReg.FPCR, (ulong)value).ThrowOnError(); } } public uint Fpsr { get { HvApi.hv_vcpu_get_reg(_vcpu, HvReg.FPSR, out ulong fpsr).ThrowOnError(); return (uint)fpsr; } set { HvApi.hv_vcpu_set_reg(_vcpu, HvReg.FPSR, (ulong)value).ThrowOnError(); } } private readonly ulong _vcpu; public HvExecutionContextVcpu(ulong vcpu) { _vcpu = vcpu; } public ulong GetX(int index) { if (index == 31) { HvApi.hv_vcpu_get_sys_reg(_vcpu, HvSysReg.SP_EL0, out ulong value).ThrowOnError(); return value; } else { HvApi.hv_vcpu_get_reg(_vcpu, HvReg.X0 + (uint)index, out ulong value).ThrowOnError(); return value; } } public void SetX(int index, ulong value) { if (index == 31) { HvApi.hv_vcpu_set_sys_reg(_vcpu, HvSysReg.SP_EL0, value).ThrowOnError(); } else { HvApi.hv_vcpu_set_reg(_vcpu, HvReg.X0 + (uint)index, value).ThrowOnError(); } } public V128 GetV(int index) { HvApi.hv_vcpu_get_simd_fp_reg(_vcpu, HvSimdFPReg.Q0 + (uint)index, out HvSimdFPUchar16 value).ThrowOnError(); return new V128(value.Low, value.High); } public void SetV(int index, V128 value) { _setSimdFpReg(_vcpu, HvSimdFPReg.Q0 + (uint)index, value, _setSimdFpRegNativePtr).ThrowOnError(); } public void RequestInterrupt() { ulong vcpu = _vcpu; HvApi.hv_vcpus_exit(ref vcpu, 1); } } }