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Common: ARM64 compatibility
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@ -189,6 +189,27 @@ std::vector<DarwinMisc::CPUClass> DarwinMisc::GetCPUClasses()
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return out;
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}
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template <typename T>
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static std::optional<T> sysctlbyname_T(const char* name)
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{
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T output = 0;
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size_t output_size = sizeof(output);
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if (sysctlbyname(name, &output, &output_size, nullptr, 0) != 0)
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return std::nullopt;
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return output;
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}
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size_t HostSys::GetRuntimePageSize()
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{
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return sysctlbyname_T<u32>("hw.pagesize").value_or(0);
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}
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size_t HostSys::GetRuntimeCacheLineSize()
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{
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return static_cast<size_t>(std::max<s64>(sysctlbyname_T<s64>("hw.cachelinesize").value_or(0), 0));
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}
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static __ri vm_prot_t MachProt(const PageProtectionMode& mode)
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{
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vm_prot_t machmode = (mode.CanWrite()) ? VM_PROT_WRITE : 0;
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@ -123,6 +123,12 @@ namespace HostSys
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#else
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void FlushInstructionCache(void* address, u32 size);
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#endif
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/// Returns the size of pages for the current host.
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size_t GetRuntimePageSize();
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/// Returns the size of a cache line for the current host.
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size_t GetRuntimeCacheLineSize();
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} // namespace HostSys
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namespace PageFaultHandler
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@ -134,6 +134,34 @@ void HostSys::UnmapSharedMemory(void* baseaddr, size_t size)
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pxFailRel("Failed to unmap shared memory");
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}
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size_t HostSys::GetRuntimePageSize()
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{
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int res = sysconf(_SC_PAGESIZE);
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return (res > 0) ? static_cast<size_t>(res) : 0;
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}
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size_t HostSys::GetRuntimeCacheLineSize()
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{
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int l1i = sysconf(_SC_LEVEL1_DCACHE_LINESIZE);
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int l1d = sysconf(_SC_LEVEL1_ICACHE_LINESIZE);
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int res = (l1i > l1d) ? l1i : l1d;
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for (int index = 0; index < 16; index++)
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{
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char buf[128];
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snprintf(buf, sizeof(buf), "/sys/devices/system/cpu/cpu0/cache/index%d/coherency_line_size", index);
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std::FILE* fp = std::fopen(buf, "rb");
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if (!fp)
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break;
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std::fread(buf, sizeof(buf), 1, fp);
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std::fclose(fp);
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int val = std::atoi(buf);
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res = (val > res) ? val : res;
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}
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return (res > 0) ? static_cast<size_t>(res) : 0;
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}
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SharedMemoryMappingArea::SharedMemoryMappingArea(u8* base_ptr, size_t size, size_t num_pages)
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: m_base_ptr(base_ptr)
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, m_size(size)
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@ -4,6 +4,8 @@
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#pragma once
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#include "Pcsx2Types.h"
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#include <bit>
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#include <cstddef>
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// --------------------------------------------------------------------------------------
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@ -21,11 +23,33 @@ static constexpr bool IsDebugBuild = true;
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static constexpr bool IsDebugBuild = false;
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#endif
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// Defines the memory page size for the target platform at compilation. All supported platforms
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// (which means Intel only right now) have a 4k granularity.
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static constexpr unsigned int __pagesize = 0x1000;
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static constexpr unsigned int __pageshift = 12;
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static constexpr unsigned int __pagemask = __pagesize - 1;
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// Defines the memory page size for the target platform at compilation.
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#if defined(OVERRIDE_HOST_PAGE_SIZE)
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static constexpr unsigned int __pagesize = OVERRIDE_HOST_PAGE_SIZE;
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static constexpr unsigned int __pagemask = __pagesize - 1;
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static constexpr unsigned int __pageshift = std::bit_width(__pagemask);
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#elif defined(_M_ARM64)
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// Apple Silicon uses 16KB pages and 128 byte cache lines.
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static constexpr unsigned int __pagesize = 0x4000;
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static constexpr unsigned int __pageshift = 14;
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static constexpr unsigned int __pagemask = __pagesize - 1;
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#else
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// X86 uses a 4KB granularity and 64 byte cache lines.
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static constexpr unsigned int __pagesize = 0x1000;
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static constexpr unsigned int __pageshift = 12;
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static constexpr unsigned int __pagemask = __pagesize - 1;
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#endif
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#if defined(OVERRIDE_HOST_CACHE_LINE_SIZE)
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static constexpr unsigned int __cachelinesize = OVERRIDE_HOST_CACHE_LINE_SIZE;
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#elif defined(_M_ARM64)
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static constexpr unsigned int __cachelinesize = 128;
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#else
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static constexpr unsigned int __cachelinesize = 64;
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#endif
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// We use 4KB alignment for globals for both Apple and x86 platforms, since computing the
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// address on ARM64 is a single instruction (adrp).
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static constexpr unsigned int __pagealignsize = 0x1000;
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// --------------------------------------------------------------------------------------
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// Microsoft Visual Studio
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@ -5,12 +5,12 @@
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#pragma once
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#if defined(_M_X86)
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#ifdef _MSC_VER
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#include <intrin.h>
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#endif
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#if defined(_M_X86)
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#if defined(__AVX2__)
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#define _M_SSE 0x501
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#elif defined(__AVX__)
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@ -36,12 +36,8 @@
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#include <immintrin.h>
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#elif defined(_M_ARM64)
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#if defined(_MSC_VER) && !defined(__clang__)
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#include <arm64_neon.h>
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#else
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#include <arm_neon.h>
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#endif
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#endif
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#ifdef __APPLE__
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#include <stdlib.h> // alloca
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@ -100,6 +100,35 @@ void HostSys::UnmapSharedMemory(void* baseaddr, size_t size)
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pxFail("Failed to unmap shared memory");
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}
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size_t HostSys::GetRuntimePageSize()
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{
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SYSTEM_INFO si = {};
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GetSystemInfo(&si);
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return si.dwPageSize;
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}
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size_t HostSys::GetRuntimeCacheLineSize()
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{
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DWORD size = 0;
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if (!GetLogicalProcessorInformation(nullptr, &size) && GetLastError() != ERROR_INSUFFICIENT_BUFFER)
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return 0;
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std::unique_ptr<SYSTEM_LOGICAL_PROCESSOR_INFORMATION[]> lpi =
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std::make_unique<SYSTEM_LOGICAL_PROCESSOR_INFORMATION[]>(
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(size + (sizeof(SYSTEM_LOGICAL_PROCESSOR_INFORMATION) - 1)) / sizeof(SYSTEM_LOGICAL_PROCESSOR_INFORMATION));
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if (!GetLogicalProcessorInformation(lpi.get(), &size))
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return 0;
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u32 max_line_size = 0;
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for (u32 i = 0; i < size / sizeof(SYSTEM_LOGICAL_PROCESSOR_INFORMATION); i++)
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{
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if (lpi[i].Relationship == RelationCache)
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max_line_size = std::max<u32>(max_line_size, lpi[i].Cache.LineSize);
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}
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return max_line_size;
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}
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#ifdef _M_ARM64
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void HostSys::FlushInstructionCache(void* address, u32 size)
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@ -107,10 +107,20 @@ Threading::ThreadHandle& Threading::ThreadHandle::operator=(const ThreadHandle&
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u64 Threading::ThreadHandle::GetCPUTime() const
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{
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#ifndef _M_ARM64
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u64 ret = 0;
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if (m_native_handle)
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QueryThreadCycleTime((HANDLE)m_native_handle, &ret);
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return ret;
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#else
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FILETIME user, kernel, unused;
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if (!GetThreadTimes((HANDLE)m_native_handle, &unused, &unused, &kernel, &user))
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return 0;
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const u64 user_time = (static_cast<u64>(user.dwHighDateTime) << 32) | static_cast<u64>(user.dwLowDateTime);
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const u64 kernel_time = (static_cast<u64>(kernel.dwHighDateTime) << 32) | static_cast<u64>(kernel.dwLowDateTime);
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return user_time + kernel_time;
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#endif
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}
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bool Threading::ThreadHandle::SetAffinity(u64 processor_mask) const
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@ -198,13 +208,24 @@ Threading::ThreadHandle& Threading::Thread::operator=(Thread&& thread)
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u64 Threading::GetThreadCpuTime()
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{
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#ifndef _M_ARM64
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u64 ret = 0;
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QueryThreadCycleTime(GetCurrentThread(), &ret);
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return ret;
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#else
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FILETIME user, kernel, unused;
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if (!GetThreadTimes(GetCurrentThread(), &unused, &unused, &kernel, &user))
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return 0;
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const u64 user_time = (static_cast<u64>(user.dwHighDateTime) << 32) | static_cast<u64>(user.dwLowDateTime);
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const u64 kernel_time = (static_cast<u64>(kernel.dwHighDateTime) << 32) | static_cast<u64>(kernel.dwLowDateTime);
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return user_time + kernel_time;
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#endif
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}
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u64 Threading::GetThreadTicksPerSecond()
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{
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#ifndef _M_ARM64
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// On x86, despite what the MS documentation says, this basically appears to be rdtsc.
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// So, the frequency is our base clock speed (and stable regardless of power management).
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static u64 frequency = 0;
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@ -224,6 +245,9 @@ u64 Threading::GetThreadTicksPerSecond()
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}
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}
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return frequency;
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#else
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return 10000000;
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#endif
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}
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void Threading::SetNameOfCurrentThread(const char* name)
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#include <atomic>
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#include "AlignedMalloc.h"
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#include "Pcsx2Defs.h"
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template <typename T, size_t max_size>
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class ringbuffer_base
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{
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static const int padding_size = 64 - sizeof(size_t);
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static const int padding_size = __cachelinesize - sizeof(size_t);
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std::atomic<size_t> write_index_;
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char padding1[padding_size]; /* force read_index and write_index to different cache lines */
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@ -211,7 +211,7 @@ namespace GSCapture
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static std::unique_ptr<s16[]> s_audio_buffer;
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static std::atomic<u32> s_audio_buffer_size{0};
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static u32 s_audio_buffer_write_pos = 0;
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alignas(64) static u32 s_audio_buffer_read_pos = 0;
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alignas(__cachelinesize) static u32 s_audio_buffer_read_pos = 0;
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} // namespace GSCapture
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#ifndef USE_LINKED_FFMPEG
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@ -278,7 +278,7 @@ namespace
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size_t m_block_pos = 0;
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DynamicHeapArray<u8, 64> m_block_read_buffer;
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alignas(64) CXzUnpacker m_unpacker = {};
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alignas(__cachelinesize) CXzUnpacker m_unpacker = {};
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};
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GSDumpLzma::GSDumpLzma() = default;
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@ -61,12 +61,12 @@ namespace MTGS
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static void SetEvent();
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alignas(32) BufferedData RingBuffer;
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alignas(__cachelinesize) BufferedData RingBuffer;
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// note: when m_ReadPos == m_WritePos, the fifo is empty
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// Threading info: m_ReadPos is updated by the MTGS thread. m_WritePos is updated by the EE thread
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alignas(64) static std::atomic<unsigned int> s_ReadPos; // cur pos gs is reading from
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alignas(64) static std::atomic<unsigned int> s_WritePos; // cur pos ee thread is writing to
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alignas(__cachelinesize) static std::atomic<unsigned int> s_ReadPos; // cur pos gs is reading from
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alignas(__cachelinesize) static std::atomic<unsigned int> s_WritePos; // cur pos ee thread is writing to
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// These vars maintain instance data for sending Data Packets.
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// Only one data packet can be constructed and uploaded at a time.
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@ -21,9 +21,9 @@ class VU_Thread final {
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u32 buffer[buffer_size];
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// Note: keep atomic on separate cache line to avoid CPU conflict
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alignas(64) std::atomic<int> m_ato_read_pos; // Only modified by VU thread
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alignas(64) std::atomic<int> m_ato_write_pos; // Only modified by EE thread
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alignas(64) int m_read_pos; // temporary read pos (local to the VU thread)
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alignas(__cachelinesize) std::atomic<int> m_ato_read_pos; // Only modified by VU thread
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alignas(__cachelinesize) std::atomic<int> m_ato_write_pos; // Only modified by EE thread
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alignas(__cachelinesize) int m_read_pos; // temporary read pos (local to the VU thread)
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int m_write_pos; // temporary write pos (local to the EE thread)
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Threading::WorkSema semaEvent;
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std::atomic_bool m_shutdown_flag{false};
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