kernel: convert KResourceLimit
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c0b9e93b77
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641783df8f
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@ -12,11 +12,11 @@ namespace Kernel {
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constexpr s64 DefaultTimeout = 10000000000; // 10 seconds
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constexpr s64 DefaultTimeout = 10000000000; // 10 seconds
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KResourceLimit::KResourceLimit(KernelCore& kernel)
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KResourceLimit::KResourceLimit(KernelCore& kernel)
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: KAutoObjectWithSlabHeapAndContainer{kernel}, lock{kernel}, cond_var{kernel} {}
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: KAutoObjectWithSlabHeapAndContainer{kernel}, m_lock{m_kernel}, m_cond_var{m_kernel} {}
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KResourceLimit::~KResourceLimit() = default;
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KResourceLimit::~KResourceLimit() = default;
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void KResourceLimit::Initialize(const Core::Timing::CoreTiming* core_timing_) {
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void KResourceLimit::Initialize(const Core::Timing::CoreTiming* core_timing) {
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core_timing = core_timing_;
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m_core_timing = core_timing;
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}
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}
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void KResourceLimit::Finalize() {}
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void KResourceLimit::Finalize() {}
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@ -25,11 +25,11 @@ s64 KResourceLimit::GetLimitValue(LimitableResource which) const {
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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s64 value{};
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s64 value{};
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{
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{
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KScopedLightLock lk{lock};
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KScopedLightLock lk{m_lock};
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value = limit_values[index];
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value = m_limit_values[index];
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ASSERT(value >= 0);
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ASSERT(value >= 0);
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ASSERT(current_values[index] <= limit_values[index]);
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ASSERT(m_current_values[index] <= m_limit_values[index]);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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}
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}
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return value;
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return value;
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}
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}
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@ -38,11 +38,11 @@ s64 KResourceLimit::GetCurrentValue(LimitableResource which) const {
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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s64 value{};
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s64 value{};
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{
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{
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KScopedLightLock lk{lock};
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KScopedLightLock lk{m_lock};
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value = current_values[index];
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value = m_current_values[index];
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ASSERT(value >= 0);
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ASSERT(value >= 0);
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ASSERT(current_values[index] <= limit_values[index]);
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ASSERT(m_current_values[index] <= m_limit_values[index]);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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}
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}
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return value;
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return value;
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}
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}
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@ -51,11 +51,11 @@ s64 KResourceLimit::GetPeakValue(LimitableResource which) const {
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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s64 value{};
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s64 value{};
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{
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{
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KScopedLightLock lk{lock};
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KScopedLightLock lk{m_lock};
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value = peak_values[index];
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value = m_peak_values[index];
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ASSERT(value >= 0);
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ASSERT(value >= 0);
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ASSERT(current_values[index] <= limit_values[index]);
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ASSERT(m_current_values[index] <= m_limit_values[index]);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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}
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}
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return value;
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return value;
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}
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}
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@ -64,11 +64,11 @@ s64 KResourceLimit::GetFreeValue(LimitableResource which) const {
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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s64 value{};
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s64 value{};
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{
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{
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KScopedLightLock lk(lock);
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KScopedLightLock lk(m_lock);
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ASSERT(current_values[index] >= 0);
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ASSERT(m_current_values[index] >= 0);
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ASSERT(current_values[index] <= limit_values[index]);
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ASSERT(m_current_values[index] <= m_limit_values[index]);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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value = limit_values[index] - current_values[index];
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value = m_limit_values[index] - m_current_values[index];
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}
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}
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return value;
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return value;
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@ -76,51 +76,51 @@ s64 KResourceLimit::GetFreeValue(LimitableResource which) const {
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Result KResourceLimit::SetLimitValue(LimitableResource which, s64 value) {
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Result KResourceLimit::SetLimitValue(LimitableResource which, s64 value) {
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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KScopedLightLock lk(lock);
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KScopedLightLock lk(m_lock);
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R_UNLESS(current_values[index] <= value, ResultInvalidState);
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R_UNLESS(m_current_values[index] <= value, ResultInvalidState);
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limit_values[index] = value;
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m_limit_values[index] = value;
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peak_values[index] = current_values[index];
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m_peak_values[index] = m_current_values[index];
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R_SUCCEED();
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R_SUCCEED();
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}
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}
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bool KResourceLimit::Reserve(LimitableResource which, s64 value) {
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bool KResourceLimit::Reserve(LimitableResource which, s64 value) {
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return Reserve(which, value, core_timing->GetGlobalTimeNs().count() + DefaultTimeout);
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return Reserve(which, value, m_core_timing->GetGlobalTimeNs().count() + DefaultTimeout);
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}
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}
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bool KResourceLimit::Reserve(LimitableResource which, s64 value, s64 timeout) {
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bool KResourceLimit::Reserve(LimitableResource which, s64 value, s64 timeout) {
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ASSERT(value >= 0);
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ASSERT(value >= 0);
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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KScopedLightLock lk(lock);
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KScopedLightLock lk(m_lock);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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if (current_hints[index] >= limit_values[index]) {
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if (m_current_hints[index] >= m_limit_values[index]) {
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return false;
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return false;
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}
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}
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// Loop until we reserve or run out of time.
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// Loop until we reserve or run out of time.
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while (true) {
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while (true) {
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ASSERT(current_values[index] <= limit_values[index]);
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ASSERT(m_current_values[index] <= m_limit_values[index]);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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// If we would overflow, don't allow to succeed.
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// If we would overflow, don't allow to succeed.
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if (Common::WrappingAdd(current_values[index], value) <= current_values[index]) {
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if (Common::WrappingAdd(m_current_values[index], value) <= m_current_values[index]) {
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break;
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break;
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}
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}
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if (current_values[index] + value <= limit_values[index]) {
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if (m_current_values[index] + value <= m_limit_values[index]) {
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current_values[index] += value;
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m_current_values[index] += value;
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current_hints[index] += value;
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m_current_hints[index] += value;
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peak_values[index] = std::max(peak_values[index], current_values[index]);
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m_peak_values[index] = std::max(m_peak_values[index], m_current_values[index]);
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return true;
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return true;
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}
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}
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if (current_hints[index] + value <= limit_values[index] &&
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if (m_current_hints[index] + value <= m_limit_values[index] &&
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(timeout < 0 || core_timing->GetGlobalTimeNs().count() < timeout)) {
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(timeout < 0 || m_core_timing->GetGlobalTimeNs().count() < timeout)) {
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waiter_count++;
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m_waiter_count++;
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cond_var.Wait(&lock, timeout, false);
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m_cond_var.Wait(&m_lock, timeout, false);
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waiter_count--;
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m_waiter_count--;
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} else {
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} else {
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break;
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break;
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}
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}
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@ -138,17 +138,17 @@ void KResourceLimit::Release(LimitableResource which, s64 value, s64 hint) {
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ASSERT(hint >= 0);
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ASSERT(hint >= 0);
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const auto index = static_cast<std::size_t>(which);
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const auto index = static_cast<std::size_t>(which);
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KScopedLightLock lk(lock);
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KScopedLightLock lk(m_lock);
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ASSERT(current_values[index] <= limit_values[index]);
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ASSERT(m_current_values[index] <= m_limit_values[index]);
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ASSERT(current_hints[index] <= current_values[index]);
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ASSERT(m_current_hints[index] <= m_current_values[index]);
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ASSERT(value <= current_values[index]);
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ASSERT(value <= m_current_values[index]);
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ASSERT(hint <= current_hints[index]);
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ASSERT(hint <= m_current_hints[index]);
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current_values[index] -= value;
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m_current_values[index] -= value;
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current_hints[index] -= hint;
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m_current_hints[index] -= hint;
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if (waiter_count != 0) {
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if (m_waiter_count != 0) {
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cond_var.Broadcast();
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m_cond_var.Broadcast();
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}
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}
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}
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}
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@ -28,10 +28,10 @@ class KResourceLimit final
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KERNEL_AUTOOBJECT_TRAITS(KResourceLimit, KAutoObject);
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KERNEL_AUTOOBJECT_TRAITS(KResourceLimit, KAutoObject);
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public:
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public:
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explicit KResourceLimit(KernelCore& kernel_);
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explicit KResourceLimit(KernelCore& kernel);
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~KResourceLimit() override;
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~KResourceLimit() override;
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void Initialize(const Core::Timing::CoreTiming* core_timing_);
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void Initialize(const Core::Timing::CoreTiming* core_timing);
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void Finalize() override;
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void Finalize() override;
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s64 GetLimitValue(LimitableResource which) const;
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s64 GetLimitValue(LimitableResource which) const;
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@ -50,14 +50,14 @@ public:
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private:
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private:
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using ResourceArray = std::array<s64, static_cast<std::size_t>(LimitableResource::Count)>;
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using ResourceArray = std::array<s64, static_cast<std::size_t>(LimitableResource::Count)>;
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ResourceArray limit_values{};
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ResourceArray m_limit_values{};
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ResourceArray current_values{};
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ResourceArray m_current_values{};
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ResourceArray current_hints{};
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ResourceArray m_current_hints{};
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ResourceArray peak_values{};
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ResourceArray m_peak_values{};
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mutable KLightLock lock;
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mutable KLightLock m_lock;
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s32 waiter_count{};
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s32 m_waiter_count{};
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KLightConditionVariable cond_var;
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KLightConditionVariable m_cond_var;
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const Core::Timing::CoreTiming* core_timing{};
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const Core::Timing::CoreTiming* m_core_timing{};
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};
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};
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KResourceLimit* CreateResourceLimitForProcess(Core::System& system, s64 physical_memory_size);
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KResourceLimit* CreateResourceLimitForProcess(Core::System& system, s64 physical_memory_size);
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