mirror of
https://github.com/starr-dusT/yuzu-mainline
synced 2024-03-05 21:12:25 -08:00
(wall, native)_clock: Rework NativeClock
This commit is contained in:
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dd12dd4c67
commit
1492a65454
@ -28,13 +28,12 @@ static s64 GetSystemTimeNS() {
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// GetSystemTimePreciseAsFileTime returns the file time in 100ns units.
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// GetSystemTimePreciseAsFileTime returns the file time in 100ns units.
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static constexpr s64 Multiplier = 100;
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static constexpr s64 Multiplier = 100;
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// Convert Windows epoch to Unix epoch.
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// Convert Windows epoch to Unix epoch.
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static constexpr s64 WindowsEpochToUnixEpochNS = 0x19DB1DED53E8000LL;
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static constexpr s64 WindowsEpochToUnixEpoch = 0x19DB1DED53E8000LL;
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FILETIME filetime;
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FILETIME filetime;
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GetSystemTimePreciseAsFileTime(&filetime);
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GetSystemTimePreciseAsFileTime(&filetime);
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return Multiplier * ((static_cast<s64>(filetime.dwHighDateTime) << 32) +
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return Multiplier * ((static_cast<s64>(filetime.dwHighDateTime) << 32) +
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static_cast<s64>(filetime.dwLowDateTime)) -
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static_cast<s64>(filetime.dwLowDateTime) - WindowsEpochToUnixEpoch);
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WindowsEpochToUnixEpochNS;
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}
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}
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#endif
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#endif
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@ -2,88 +2,71 @@
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// SPDX-License-Identifier: GPL-2.0-or-later
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include "common/steady_clock.h"
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#include "common/steady_clock.h"
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#include "common/uint128.h"
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#include "common/wall_clock.h"
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#include "common/wall_clock.h"
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#ifdef ARCHITECTURE_x86_64
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#ifdef ARCHITECTURE_x86_64
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#include "common/x64/cpu_detect.h"
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#include "common/x64/cpu_detect.h"
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#include "common/x64/native_clock.h"
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#include "common/x64/native_clock.h"
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#include "common/x64/rdtsc.h"
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#endif
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#endif
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namespace Common {
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namespace Common {
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class StandardWallClock final : public WallClock {
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class StandardWallClock final : public WallClock {
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public:
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public:
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explicit StandardWallClock(u64 emulated_cpu_frequency_, u64 emulated_clock_frequency_)
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explicit StandardWallClock() : start_time{SteadyClock::Now()} {}
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: WallClock{emulated_cpu_frequency_, emulated_clock_frequency_, false},
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start_time{SteadyClock::Now()} {}
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std::chrono::nanoseconds GetTimeNS() override {
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std::chrono::nanoseconds GetTimeNS() const override {
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return SteadyClock::Now() - start_time;
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return SteadyClock::Now() - start_time;
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}
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}
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std::chrono::microseconds GetTimeUS() override {
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std::chrono::microseconds GetTimeUS() const override {
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return std::chrono::duration_cast<std::chrono::microseconds>(GetTimeNS());
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return static_cast<std::chrono::microseconds>(GetHostTicksElapsed() / NsToUsRatio::den);
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}
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}
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std::chrono::milliseconds GetTimeMS() override {
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std::chrono::milliseconds GetTimeMS() const override {
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return std::chrono::duration_cast<std::chrono::milliseconds>(GetTimeNS());
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return static_cast<std::chrono::milliseconds>(GetHostTicksElapsed() / NsToMsRatio::den);
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}
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}
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u64 GetClockCycles() override {
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u64 GetCNTPCT() const override {
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const u128 temp = Common::Multiply64Into128(GetTimeNS().count(), emulated_clock_frequency);
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return GetHostTicksElapsed() * NsToCNTPCTRatio::num / NsToCNTPCTRatio::den;
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return Common::Divide128On32(temp, NS_RATIO).first;
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}
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}
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u64 GetCPUCycles() override {
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u64 GetHostTicksNow() const override {
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const u128 temp = Common::Multiply64Into128(GetTimeNS().count(), emulated_cpu_frequency);
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return static_cast<u64>(SteadyClock::Now().time_since_epoch().count());
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return Common::Divide128On32(temp, NS_RATIO).first;
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}
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}
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void Pause([[maybe_unused]] bool is_paused) override {
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u64 GetHostTicksElapsed() const override {
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// Do nothing in this clock type.
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return static_cast<u64>(GetTimeNS().count());
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}
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bool IsNative() const override {
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return false;
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}
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}
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private:
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private:
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SteadyClock::time_point start_time;
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SteadyClock::time_point start_time;
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};
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};
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std::unique_ptr<WallClock> CreateOptimalClock() {
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#ifdef ARCHITECTURE_x86_64
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#ifdef ARCHITECTURE_x86_64
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std::unique_ptr<WallClock> CreateBestMatchingClock(u64 emulated_cpu_frequency,
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u64 emulated_clock_frequency) {
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const auto& caps = GetCPUCaps();
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const auto& caps = GetCPUCaps();
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u64 rtsc_frequency = 0;
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if (caps.invariant_tsc) {
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rtsc_frequency = caps.tsc_frequency ? caps.tsc_frequency : EstimateRDTSCFrequency();
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}
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// Fallback to StandardWallClock if the hardware TSC does not have the precision greater than:
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if (caps.invariant_tsc && caps.tsc_frequency >= WallClock::CNTFRQ) {
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// - A nanosecond
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return std::make_unique<X64::NativeClock>(caps.tsc_frequency);
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// - The emulated CPU frequency
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// - The emulated clock counter frequency (CNTFRQ)
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if (rtsc_frequency <= WallClock::NS_RATIO || rtsc_frequency <= emulated_cpu_frequency ||
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rtsc_frequency <= emulated_clock_frequency) {
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return std::make_unique<StandardWallClock>(emulated_cpu_frequency,
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emulated_clock_frequency);
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} else {
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} else {
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return std::make_unique<X64::NativeClock>(emulated_cpu_frequency, emulated_clock_frequency,
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// Fallback to StandardWallClock if the hardware TSC
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rtsc_frequency);
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// - Is not invariant
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// - Is not more precise than CNTFRQ
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return std::make_unique<StandardWallClock>();
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}
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}
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}
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#else
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#else
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return std::make_unique<StandardWallClock>();
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std::unique_ptr<WallClock> CreateBestMatchingClock(u64 emulated_cpu_frequency,
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#endif
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u64 emulated_clock_frequency) {
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return std::make_unique<StandardWallClock>(emulated_cpu_frequency, emulated_clock_frequency);
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}
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}
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#endif
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std::unique_ptr<WallClock> CreateStandardWallClock() {
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return std::make_unique<StandardWallClock>();
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std::unique_ptr<WallClock> CreateStandardWallClock(u64 emulated_cpu_frequency,
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u64 emulated_clock_frequency) {
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return std::make_unique<StandardWallClock>(emulated_cpu_frequency, emulated_clock_frequency);
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}
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}
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} // namespace Common
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} // namespace Common
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@ -5,6 +5,7 @@
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#include <chrono>
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#include <chrono>
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#include <memory>
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#include <memory>
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#include <ratio>
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#include "common/common_types.h"
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#include "common/common_types.h"
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@ -12,50 +13,43 @@ namespace Common {
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class WallClock {
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class WallClock {
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public:
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public:
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static constexpr u64 NS_RATIO = 1'000'000'000;
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static constexpr u64 CNTFRQ = 19'200'000; // CNTPCT_EL0 Frequency = 19.2 MHz
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static constexpr u64 US_RATIO = 1'000'000;
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static constexpr u64 MS_RATIO = 1'000;
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virtual ~WallClock() = default;
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virtual ~WallClock() = default;
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/// Returns current wall time in nanoseconds
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/// @returns The time in nanoseconds since the construction of this clock.
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[[nodiscard]] virtual std::chrono::nanoseconds GetTimeNS() = 0;
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virtual std::chrono::nanoseconds GetTimeNS() const = 0;
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/// Returns current wall time in microseconds
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/// @returns The time in microseconds since the construction of this clock.
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[[nodiscard]] virtual std::chrono::microseconds GetTimeUS() = 0;
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virtual std::chrono::microseconds GetTimeUS() const = 0;
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/// Returns current wall time in milliseconds
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/// @returns The time in milliseconds since the construction of this clock.
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[[nodiscard]] virtual std::chrono::milliseconds GetTimeMS() = 0;
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virtual std::chrono::milliseconds GetTimeMS() const = 0;
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/// Returns current wall time in emulated clock cycles
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/// @returns The guest CNTPCT ticks since the construction of this clock.
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[[nodiscard]] virtual u64 GetClockCycles() = 0;
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virtual u64 GetCNTPCT() const = 0;
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/// Returns current wall time in emulated cpu cycles
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/// @returns The raw host timer ticks since an indeterminate epoch.
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[[nodiscard]] virtual u64 GetCPUCycles() = 0;
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virtual u64 GetHostTicksNow() const = 0;
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virtual void Pause(bool is_paused) = 0;
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/// @returns The raw host timer ticks since the construction of this clock.
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virtual u64 GetHostTicksElapsed() const = 0;
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/// Tells if the wall clock, uses the host CPU's hardware clock
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/// @returns Whether the clock directly uses the host's hardware clock.
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[[nodiscard]] bool IsNative() const {
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virtual bool IsNative() const = 0;
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return is_native;
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}
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protected:
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protected:
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explicit WallClock(u64 emulated_cpu_frequency_, u64 emulated_clock_frequency_, bool is_native_)
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using NsRatio = std::nano;
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: emulated_cpu_frequency{emulated_cpu_frequency_},
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using UsRatio = std::micro;
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emulated_clock_frequency{emulated_clock_frequency_}, is_native{is_native_} {}
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using MsRatio = std::milli;
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u64 emulated_cpu_frequency;
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using NsToUsRatio = std::ratio_divide<std::nano, std::micro>;
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u64 emulated_clock_frequency;
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using NsToMsRatio = std::ratio_divide<std::nano, std::milli>;
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using NsToCNTPCTRatio = std::ratio<CNTFRQ, std::nano::den>;
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private:
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bool is_native;
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};
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};
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[[nodiscard]] std::unique_ptr<WallClock> CreateBestMatchingClock(u64 emulated_cpu_frequency,
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std::unique_ptr<WallClock> CreateOptimalClock();
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u64 emulated_clock_frequency);
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[[nodiscard]] std::unique_ptr<WallClock> CreateStandardWallClock(u64 emulated_cpu_frequency,
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std::unique_ptr<WallClock> CreateStandardWallClock();
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u64 emulated_clock_frequency);
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} // namespace Common
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} // namespace Common
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@ -1,164 +1,45 @@
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// SPDX-FileCopyrightText: Copyright 2020 yuzu Emulator Project
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// SPDX-FileCopyrightText: Copyright 2020 yuzu Emulator Project
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// SPDX-License-Identifier: GPL-2.0-or-later
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// SPDX-License-Identifier: GPL-2.0-or-later
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#include <array>
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#include <chrono>
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#include <thread>
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#include "common/atomic_ops.h"
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#include "common/steady_clock.h"
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#include "common/uint128.h"
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#include "common/uint128.h"
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#include "common/x64/native_clock.h"
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#include "common/x64/native_clock.h"
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#include "common/x64/rdtsc.h"
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#ifdef _MSC_VER
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namespace Common::X64 {
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#include <intrin.h>
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#endif
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namespace Common {
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NativeClock::NativeClock(u64 rdtsc_frequency_)
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: start_ticks{FencedRDTSC()}, rdtsc_frequency{rdtsc_frequency_},
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ns_rdtsc_factor{GetFixedPoint64Factor(NsRatio::den, rdtsc_frequency)},
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us_rdtsc_factor{GetFixedPoint64Factor(UsRatio::den, rdtsc_frequency)},
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ms_rdtsc_factor{GetFixedPoint64Factor(MsRatio::den, rdtsc_frequency)},
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cntpct_rdtsc_factor{GetFixedPoint64Factor(CNTFRQ, rdtsc_frequency)} {}
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#ifdef _MSC_VER
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std::chrono::nanoseconds NativeClock::GetTimeNS() const {
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__forceinline static u64 FencedRDTSC() {
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return std::chrono::nanoseconds{MultiplyHigh(GetHostTicksElapsed(), ns_rdtsc_factor)};
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_mm_lfence();
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_ReadWriteBarrier();
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const u64 result = __rdtsc();
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_mm_lfence();
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_ReadWriteBarrier();
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return result;
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}
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#else
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static u64 FencedRDTSC() {
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u64 eax;
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u64 edx;
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asm volatile("lfence\n\t"
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"rdtsc\n\t"
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"lfence\n\t"
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: "=a"(eax), "=d"(edx));
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return (edx << 32) | eax;
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}
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#endif
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template <u64 Nearest>
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static u64 RoundToNearest(u64 value) {
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const auto mod = value % Nearest;
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return mod >= (Nearest / 2) ? (value - mod + Nearest) : (value - mod);
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}
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}
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u64 EstimateRDTSCFrequency() {
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std::chrono::microseconds NativeClock::GetTimeUS() const {
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// Discard the first result measuring the rdtsc.
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return std::chrono::microseconds{MultiplyHigh(GetHostTicksElapsed(), us_rdtsc_factor)};
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FencedRDTSC();
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std::this_thread::sleep_for(std::chrono::milliseconds{1});
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FencedRDTSC();
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// Get the current time.
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const auto start_time = Common::RealTimeClock::Now();
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const u64 tsc_start = FencedRDTSC();
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// Wait for 250 milliseconds.
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std::this_thread::sleep_for(std::chrono::milliseconds{250});
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const auto end_time = Common::RealTimeClock::Now();
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const u64 tsc_end = FencedRDTSC();
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// Calculate differences.
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const u64 timer_diff = static_cast<u64>(
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std::chrono::duration_cast<std::chrono::nanoseconds>(end_time - start_time).count());
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const u64 tsc_diff = tsc_end - tsc_start;
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const u64 tsc_freq = MultiplyAndDivide64(tsc_diff, 1000000000ULL, timer_diff);
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return RoundToNearest<1000>(tsc_freq);
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}
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}
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namespace X64 {
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std::chrono::milliseconds NativeClock::GetTimeMS() const {
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NativeClock::NativeClock(u64 emulated_cpu_frequency_, u64 emulated_clock_frequency_,
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return std::chrono::milliseconds{MultiplyHigh(GetHostTicksElapsed(), ms_rdtsc_factor)};
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u64 rtsc_frequency_)
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: WallClock(emulated_cpu_frequency_, emulated_clock_frequency_, true), rtsc_frequency{
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rtsc_frequency_} {
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// Thread to re-adjust the RDTSC frequency after 10 seconds has elapsed.
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time_sync_thread = std::jthread{[this](std::stop_token token) {
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// Get the current time.
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const auto start_time = Common::RealTimeClock::Now();
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const u64 tsc_start = FencedRDTSC();
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// Wait for 10 seconds.
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if (!Common::StoppableTimedWait(token, std::chrono::seconds{10})) {
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return;
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}
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const auto end_time = Common::RealTimeClock::Now();
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const u64 tsc_end = FencedRDTSC();
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// Calculate differences.
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const u64 timer_diff = static_cast<u64>(
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std::chrono::duration_cast<std::chrono::nanoseconds>(end_time - start_time).count());
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const u64 tsc_diff = tsc_end - tsc_start;
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const u64 tsc_freq = MultiplyAndDivide64(tsc_diff, 1000000000ULL, timer_diff);
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rtsc_frequency = tsc_freq;
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CalculateAndSetFactors();
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}};
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time_point.inner.last_measure = FencedRDTSC();
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time_point.inner.accumulated_ticks = 0U;
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CalculateAndSetFactors();
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}
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}
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u64 NativeClock::GetRTSC() {
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u64 NativeClock::GetCNTPCT() const {
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TimePoint new_time_point{};
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return MultiplyHigh(GetHostTicksElapsed(), cntpct_rdtsc_factor);
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TimePoint current_time_point{};
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current_time_point.pack = Common::AtomicLoad128(time_point.pack.data());
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do {
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const u64 current_measure = FencedRDTSC();
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u64 diff = current_measure - current_time_point.inner.last_measure;
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diff = diff & ~static_cast<u64>(static_cast<s64>(diff) >> 63); // max(diff, 0)
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new_time_point.inner.last_measure = current_measure > current_time_point.inner.last_measure
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? current_measure
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: current_time_point.inner.last_measure;
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new_time_point.inner.accumulated_ticks = current_time_point.inner.accumulated_ticks + diff;
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} while (!Common::AtomicCompareAndSwap(time_point.pack.data(), new_time_point.pack,
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current_time_point.pack, current_time_point.pack));
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return new_time_point.inner.accumulated_ticks;
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}
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}
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void NativeClock::Pause(bool is_paused) {
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u64 NativeClock::GetHostTicksNow() const {
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if (!is_paused) {
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return FencedRDTSC();
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TimePoint current_time_point{};
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TimePoint new_time_point{};
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current_time_point.pack = Common::AtomicLoad128(time_point.pack.data());
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||||||
do {
|
|
||||||
new_time_point.pack = current_time_point.pack;
|
|
||||||
new_time_point.inner.last_measure = FencedRDTSC();
|
|
||||||
} while (!Common::AtomicCompareAndSwap(time_point.pack.data(), new_time_point.pack,
|
|
||||||
current_time_point.pack, current_time_point.pack));
|
|
||||||
}
|
|
||||||
}
|
}
|
||||||
|
|
||||||
std::chrono::nanoseconds NativeClock::GetTimeNS() {
|
u64 NativeClock::GetHostTicksElapsed() const {
|
||||||
const u64 rtsc_value = GetRTSC();
|
return FencedRDTSC() - start_ticks;
|
||||||
return std::chrono::nanoseconds{MultiplyHigh(rtsc_value, ns_rtsc_factor)};
|
|
||||||
}
|
}
|
||||||
|
|
||||||
std::chrono::microseconds NativeClock::GetTimeUS() {
|
bool NativeClock::IsNative() const {
|
||||||
const u64 rtsc_value = GetRTSC();
|
return true;
|
||||||
return std::chrono::microseconds{MultiplyHigh(rtsc_value, us_rtsc_factor)};
|
|
||||||
}
|
}
|
||||||
|
|
||||||
std::chrono::milliseconds NativeClock::GetTimeMS() {
|
} // namespace Common::X64
|
||||||
const u64 rtsc_value = GetRTSC();
|
|
||||||
return std::chrono::milliseconds{MultiplyHigh(rtsc_value, ms_rtsc_factor)};
|
|
||||||
}
|
|
||||||
|
|
||||||
u64 NativeClock::GetClockCycles() {
|
|
||||||
const u64 rtsc_value = GetRTSC();
|
|
||||||
return MultiplyHigh(rtsc_value, clock_rtsc_factor);
|
|
||||||
}
|
|
||||||
|
|
||||||
u64 NativeClock::GetCPUCycles() {
|
|
||||||
const u64 rtsc_value = GetRTSC();
|
|
||||||
return MultiplyHigh(rtsc_value, cpu_rtsc_factor);
|
|
||||||
}
|
|
||||||
|
|
||||||
void NativeClock::CalculateAndSetFactors() {
|
|
||||||
ns_rtsc_factor = GetFixedPoint64Factor(NS_RATIO, rtsc_frequency);
|
|
||||||
us_rtsc_factor = GetFixedPoint64Factor(US_RATIO, rtsc_frequency);
|
|
||||||
ms_rtsc_factor = GetFixedPoint64Factor(MS_RATIO, rtsc_frequency);
|
|
||||||
clock_rtsc_factor = GetFixedPoint64Factor(emulated_clock_frequency, rtsc_frequency);
|
|
||||||
cpu_rtsc_factor = GetFixedPoint64Factor(emulated_cpu_frequency, rtsc_frequency);
|
|
||||||
}
|
|
||||||
|
|
||||||
} // namespace X64
|
|
||||||
|
|
||||||
} // namespace Common
|
|
||||||
|
@ -3,58 +3,36 @@
|
|||||||
|
|
||||||
#pragma once
|
#pragma once
|
||||||
|
|
||||||
#include "common/polyfill_thread.h"
|
|
||||||
#include "common/wall_clock.h"
|
#include "common/wall_clock.h"
|
||||||
|
|
||||||
namespace Common {
|
namespace Common::X64 {
|
||||||
|
|
||||||
namespace X64 {
|
|
||||||
class NativeClock final : public WallClock {
|
class NativeClock final : public WallClock {
|
||||||
public:
|
public:
|
||||||
explicit NativeClock(u64 emulated_cpu_frequency_, u64 emulated_clock_frequency_,
|
explicit NativeClock(u64 rdtsc_frequency_);
|
||||||
u64 rtsc_frequency_);
|
|
||||||
|
|
||||||
std::chrono::nanoseconds GetTimeNS() override;
|
std::chrono::nanoseconds GetTimeNS() const override;
|
||||||
|
|
||||||
std::chrono::microseconds GetTimeUS() override;
|
std::chrono::microseconds GetTimeUS() const override;
|
||||||
|
|
||||||
std::chrono::milliseconds GetTimeMS() override;
|
std::chrono::milliseconds GetTimeMS() const override;
|
||||||
|
|
||||||
u64 GetClockCycles() override;
|
u64 GetCNTPCT() const override;
|
||||||
|
|
||||||
u64 GetCPUCycles() override;
|
u64 GetHostTicksNow() const override;
|
||||||
|
|
||||||
void Pause(bool is_paused) override;
|
u64 GetHostTicksElapsed() const override;
|
||||||
|
|
||||||
|
bool IsNative() const override;
|
||||||
|
|
||||||
private:
|
private:
|
||||||
u64 GetRTSC();
|
u64 start_ticks;
|
||||||
|
u64 rdtsc_frequency;
|
||||||
|
|
||||||
void CalculateAndSetFactors();
|
u64 ns_rdtsc_factor;
|
||||||
|
u64 us_rdtsc_factor;
|
||||||
union alignas(16) TimePoint {
|
u64 ms_rdtsc_factor;
|
||||||
TimePoint() : pack{} {}
|
u64 cntpct_rdtsc_factor;
|
||||||
u128 pack{};
|
|
||||||
struct Inner {
|
|
||||||
u64 last_measure{};
|
|
||||||
u64 accumulated_ticks{};
|
|
||||||
} inner;
|
|
||||||
};
|
|
||||||
|
|
||||||
TimePoint time_point;
|
|
||||||
|
|
||||||
// factors
|
|
||||||
u64 clock_rtsc_factor{};
|
|
||||||
u64 cpu_rtsc_factor{};
|
|
||||||
u64 ns_rtsc_factor{};
|
|
||||||
u64 us_rtsc_factor{};
|
|
||||||
u64 ms_rtsc_factor{};
|
|
||||||
|
|
||||||
u64 rtsc_frequency;
|
|
||||||
|
|
||||||
std::jthread time_sync_thread;
|
|
||||||
};
|
};
|
||||||
} // namespace X64
|
|
||||||
|
|
||||||
u64 EstimateRDTSCFrequency();
|
} // namespace Common::X64
|
||||||
|
|
||||||
} // namespace Common
|
|
||||||
|
Loading…
Reference in New Issue
Block a user