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// Copyright 2014 Citra Emulator Project
// Licensed under GPLv2 or any later version
// Refer to the license.txt file included.

#include <atomic>
#include <memory>
#include <mutex>
#include <utility>

#include "common/assert.h"
#include "common/logging/log.h"

#include "core/core.h"
#include "core/core_timing.h"
#include "core/hle/kernel/address_arbiter.h"
#include "core/hle/kernel/client_port.h"
#include "core/hle/kernel/handle_table.h"
#include "core/hle/kernel/kernel.h"
#include "core/hle/kernel/process.h"
#include "core/hle/kernel/resource_limit.h"
#include "core/hle/kernel/thread.h"
#include "core/hle/lock.h"
#include "core/hle/result.h"

namespace Kernel {

/**
 * Callback that will wake up the thread it was scheduled for
 * @param thread_handle The handle of the thread that's been awoken
 * @param cycles_late The number of CPU cycles that have passed since the desired wakeup time
 */
static void ThreadWakeupCallback(u64 thread_handle, [[maybe_unused]] int cycles_late) {
    const auto proper_handle = static_cast<Handle>(thread_handle);
    const auto& system = Core::System::GetInstance();

    // Lock the global kernel mutex when we enter the kernel HLE.
    std::lock_guard<std::recursive_mutex> lock(HLE::g_hle_lock);

    SharedPtr<Thread> thread =
        system.Kernel().RetrieveThreadFromWakeupCallbackHandleTable(proper_handle);
    if (thread == nullptr) {
        LOG_CRITICAL(Kernel, "Callback fired for invalid thread {:08X}", proper_handle);
        return;
    }

    bool resume = true;

    if (thread->GetStatus() == ThreadStatus::WaitSynchAny ||
        thread->GetStatus() == ThreadStatus::WaitSynchAll ||
        thread->GetStatus() == ThreadStatus::WaitHLEEvent) {
        // Remove the thread from each of its waiting objects' waitlists
        for (const auto& object : thread->GetWaitObjects()) {
            object->RemoveWaitingThread(thread.get());
        }
        thread->ClearWaitObjects();

        // Invoke the wakeup callback before clearing the wait objects
        if (thread->HasWakeupCallback()) {
            resume = thread->InvokeWakeupCallback(ThreadWakeupReason::Timeout, thread, nullptr, 0);
        }
    }

    if (thread->GetMutexWaitAddress() != 0 || thread->GetCondVarWaitAddress() != 0 ||
        thread->GetWaitHandle() != 0) {
        ASSERT(thread->GetStatus() == ThreadStatus::WaitMutex);
        thread->SetMutexWaitAddress(0);
        thread->SetCondVarWaitAddress(0);
        thread->SetWaitHandle(0);

        auto* const lock_owner = thread->GetLockOwner();
        // Threads waking up by timeout from WaitProcessWideKey do not perform priority inheritance
        // and don't have a lock owner unless SignalProcessWideKey was called first and the thread
        // wasn't awakened due to the mutex already being acquired.
        if (lock_owner != nullptr) {
            lock_owner->RemoveMutexWaiter(thread);
        }
    }

    if (thread->GetArbiterWaitAddress() != 0) {
        ASSERT(thread->GetStatus() == ThreadStatus::WaitArb);
        thread->SetArbiterWaitAddress(0);
    }

    if (resume) {
        thread->ResumeFromWait();
    }
}

struct KernelCore::Impl {
    explicit Impl(Core::System& system) : system{system} {}

    void Initialize(KernelCore& kernel) {
        Shutdown();

        InitializeSystemResourceLimit(kernel);
        InitializeThreads();
    }

    void Shutdown() {
        next_object_id = 0;
        next_process_id = Process::ProcessIDMin;
        next_thread_id = 1;

        process_list.clear();
        current_process = nullptr;

        system_resource_limit = nullptr;

        thread_wakeup_callback_handle_table.Clear();
        thread_wakeup_event_type = nullptr;

        named_ports.clear();
    }

    // Creates the default system resource limit
    void InitializeSystemResourceLimit(KernelCore& kernel) {
        system_resource_limit = ResourceLimit::Create(kernel, "System");

        // If setting the default system values fails, then something seriously wrong has occurred.
        ASSERT(system_resource_limit->SetLimitValue(ResourceType::PhysicalMemory, 0x200000000)
                   .IsSuccess());
        ASSERT(system_resource_limit->SetLimitValue(ResourceType::Threads, 800).IsSuccess());
        ASSERT(system_resource_limit->SetLimitValue(ResourceType::Events, 700).IsSuccess());
        ASSERT(system_resource_limit->SetLimitValue(ResourceType::TransferMemory, 200).IsSuccess());
        ASSERT(system_resource_limit->SetLimitValue(ResourceType::Sessions, 900).IsSuccess());
    }

    void InitializeThreads() {
        thread_wakeup_event_type =
            system.CoreTiming().RegisterEvent("ThreadWakeupCallback", ThreadWakeupCallback);
    }

    std::atomic<u32> next_object_id{0};
    std::atomic<u64> next_process_id{Process::ProcessIDMin};
    std::atomic<u64> next_thread_id{1};

    // Lists all processes that exist in the current session.
    std::vector<SharedPtr<Process>> process_list;
    Process* current_process = nullptr;

    SharedPtr<ResourceLimit> system_resource_limit;

    Core::Timing::EventType* thread_wakeup_event_type = nullptr;
    // TODO(yuriks): This can be removed if Thread objects are explicitly pooled in the future,
    // allowing us to simply use a pool index or similar.
    Kernel::HandleTable thread_wakeup_callback_handle_table;

    /// Map of named ports managed by the kernel, which can be retrieved using
    /// the ConnectToPort SVC.
    NamedPortTable named_ports;

    // System context
    Core::System& system;
};

KernelCore::KernelCore(Core::System& system) : impl{std::make_unique<Impl>(system)} {}
KernelCore::~KernelCore() {
    Shutdown();
}

void KernelCore::Initialize() {
    impl->Initialize(*this);
}

void KernelCore::Shutdown() {
    impl->Shutdown();
}

SharedPtr<ResourceLimit> KernelCore::GetSystemResourceLimit() const {
    return impl->system_resource_limit;
}

SharedPtr<Thread> KernelCore::RetrieveThreadFromWakeupCallbackHandleTable(Handle handle) const {
    return impl->thread_wakeup_callback_handle_table.Get<Thread>(handle);
}

void KernelCore::AppendNewProcess(SharedPtr<Process> process) {
    impl->process_list.push_back(std::move(process));
}

void KernelCore::MakeCurrentProcess(Process* process) {
    impl->current_process = process;
}

Process* KernelCore::CurrentProcess() {
    return impl->current_process;
}

const Process* KernelCore::CurrentProcess() const {
    return impl->current_process;
}

void KernelCore::AddNamedPort(std::string name, SharedPtr<ClientPort> port) {
    impl->named_ports.emplace(std::move(name), std::move(port));
}

KernelCore::NamedPortTable::iterator KernelCore::FindNamedPort(const std::string& name) {
    return impl->named_ports.find(name);
}

KernelCore::NamedPortTable::const_iterator KernelCore::FindNamedPort(
    const std::string& name) const {
    return impl->named_ports.find(name);
}

bool KernelCore::IsValidNamedPort(NamedPortTable::const_iterator port) const {
    return port != impl->named_ports.cend();
}

u32 KernelCore::CreateNewObjectID() {
    return impl->next_object_id++;
}

u64 KernelCore::CreateNewThreadID() {
    return impl->next_thread_id++;
}

u64 KernelCore::CreateNewProcessID() {
    return impl->next_process_id++;
}

Core::Timing::EventType* KernelCore::ThreadWakeupCallbackEventType() const {
    return impl->thread_wakeup_event_type;
}

Kernel::HandleTable& KernelCore::ThreadWakeupCallbackHandleTable() {
    return impl->thread_wakeup_callback_handle_table;
}

const Kernel::HandleTable& KernelCore::ThreadWakeupCallbackHandleTable() const {
    return impl->thread_wakeup_callback_handle_table;
}

} // namespace Kernel