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core: Implement multicore support.

This commit is contained in:
bunnei 2018-05-02 22:36:51 -04:00
parent 9776ff9179
commit a434fdcb10
13 changed files with 113 additions and 78 deletions

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@ -52,7 +52,7 @@ static void InterruptHook(uc_engine* uc, u32 intNo, void* user_data) {
static bool UnmappedMemoryHook(uc_engine* uc, uc_mem_type type, u64 addr, int size, u64 value,
void* user_data) {
ARM_Interface::ThreadContext ctx{};
Core::CPU().SaveContext(ctx);
Core::CurrentArmInterface().SaveContext(ctx);
ASSERT_MSG(false, "Attempted to read from unmapped memory: 0x{:X}, pc=0x{:X}, lr=0x{:X}", addr,
ctx.pc, ctx.cpu_registers[30]);
return {};

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@ -108,20 +108,26 @@ public:
PerfStats::Results GetAndResetPerfStats();
/**
* Gets a reference to the emulated CPU.
* @returns A reference to the emulated CPU.
*/
ARM_Interface& CPU() {
return CurrentCpuCore().CPU();
ARM_Interface& CurrentArmInterface() {
return CurrentCpuCore().ArmInterface();
}
ARM_Interface& ArmInterface(size_t core_index) {
ASSERT(core_index < NUM_CPU_CORES);
return cpu_cores[core_index]->ArmInterface();
}
Tegra::GPU& GPU() {
return *gpu_core;
}
Kernel::Scheduler& Scheduler() {
return CurrentCpuCore().Scheduler();
Kernel::Scheduler& CurrentScheduler() {
return *CurrentCpuCore().Scheduler();
}
const std::shared_ptr<Kernel::Scheduler>& Scheduler(size_t core_index) {
ASSERT(core_index < NUM_CPU_CORES);
return cpu_cores[core_index]->Scheduler();
}
Kernel::SharedPtr<Kernel::Process>& CurrentProcess() {
@ -198,8 +204,8 @@ private:
std::map<std::thread::id, std::shared_ptr<Cpu>> thread_to_cpu;
};
inline ARM_Interface& CPU() {
return System::GetInstance().CPU();
inline ARM_Interface& CurrentArmInterface() {
return System::GetInstance().CurrentArmInterface();
}
inline TelemetrySession& Telemetry() {

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@ -33,7 +33,7 @@ Cpu::Cpu(std::shared_ptr<CpuBarrier> cpu_barrier, size_t core_index)
arm_interface = std::make_shared<ARM_Unicorn>();
}
scheduler = std::make_unique<Kernel::Scheduler>(arm_interface.get());
scheduler = std::make_shared<Kernel::Scheduler>(arm_interface.get());
}
void Cpu::RunLoop(bool tight_loop) {

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@ -51,12 +51,16 @@ public:
void PrepareReschedule();
ARM_Interface& CPU() {
ARM_Interface& ArmInterface() {
return *arm_interface;
}
Kernel::Scheduler& Scheduler() {
return *scheduler;
const ARM_Interface& ArmInterface() const {
return *arm_interface;
}
const std::shared_ptr<Kernel::Scheduler>& Scheduler() const {
return scheduler;
}
bool IsMainCore() const {
@ -68,7 +72,7 @@ private:
std::shared_ptr<ARM_Interface> arm_interface;
std::shared_ptr<CpuBarrier> cpu_barrier;
std::unique_ptr<Kernel::Scheduler> scheduler;
std::shared_ptr<Kernel::Scheduler> scheduler;
bool reschedule_pending{};
size_t core_index;

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@ -598,11 +598,11 @@ static void ReadRegister() {
}
if (id <= SP_REGISTER) {
LongToGdbHex(reply, Core::CPU().GetReg(static_cast<int>(id)));
LongToGdbHex(reply, Core::CurrentArmInterface().GetReg(static_cast<int>(id)));
} else if (id == PC_REGISTER) {
LongToGdbHex(reply, Core::CPU().GetPC());
LongToGdbHex(reply, Core::CurrentArmInterface().GetPC());
} else if (id == CPSR_REGISTER) {
IntToGdbHex(reply, Core::CPU().GetCPSR());
IntToGdbHex(reply, Core::CurrentArmInterface().GetCPSR());
} else {
return SendReply("E01");
}
@ -618,16 +618,16 @@ static void ReadRegisters() {
u8* bufptr = buffer;
for (int reg = 0; reg <= SP_REGISTER; reg++) {
LongToGdbHex(bufptr + reg * 16, Core::CPU().GetReg(reg));
LongToGdbHex(bufptr + reg * 16, Core::CurrentArmInterface().GetReg(reg));
}
bufptr += (32 * 16);
LongToGdbHex(bufptr, Core::CPU().GetPC());
LongToGdbHex(bufptr, Core::CurrentArmInterface().GetPC());
bufptr += 16;
IntToGdbHex(bufptr, Core::CPU().GetCPSR());
IntToGdbHex(bufptr, Core::CurrentArmInterface().GetCPSR());
bufptr += 8;
@ -646,11 +646,11 @@ static void WriteRegister() {
}
if (id <= SP_REGISTER) {
Core::CPU().SetReg(id, GdbHexToLong(buffer_ptr));
Core::CurrentArmInterface().SetReg(id, GdbHexToLong(buffer_ptr));
} else if (id == PC_REGISTER) {
Core::CPU().SetPC(GdbHexToLong(buffer_ptr));
Core::CurrentArmInterface().SetPC(GdbHexToLong(buffer_ptr));
} else if (id == CPSR_REGISTER) {
Core::CPU().SetCPSR(GdbHexToInt(buffer_ptr));
Core::CurrentArmInterface().SetCPSR(GdbHexToInt(buffer_ptr));
} else {
return SendReply("E01");
}
@ -667,11 +667,11 @@ static void WriteRegisters() {
for (int i = 0, reg = 0; reg <= CPSR_REGISTER; i++, reg++) {
if (reg <= SP_REGISTER) {
Core::CPU().SetReg(reg, GdbHexToLong(buffer_ptr + i * 16));
Core::CurrentArmInterface().SetReg(reg, GdbHexToLong(buffer_ptr + i * 16));
} else if (reg == PC_REGISTER) {
Core::CPU().SetPC(GdbHexToLong(buffer_ptr + i * 16));
Core::CurrentArmInterface().SetPC(GdbHexToLong(buffer_ptr + i * 16));
} else if (reg == CPSR_REGISTER) {
Core::CPU().SetCPSR(GdbHexToInt(buffer_ptr + i * 16));
Core::CurrentArmInterface().SetCPSR(GdbHexToInt(buffer_ptr + i * 16));
} else {
UNIMPLEMENTED();
}

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@ -485,8 +485,7 @@ static void ExitProcess() {
Core::CurrentProcess()->status = ProcessStatus::Exited;
// Stop all the process threads that are currently waiting for objects.
auto& thread_list = Core::System::GetInstance().Scheduler().GetThreadList();
auto stop_threads = [](const std::vector<SharedPtr<Thread>>& thread_list) {
for (auto& thread : thread_list) {
if (thread->owner_process != Core::CurrentProcess())
continue;
@ -501,6 +500,13 @@ static void ExitProcess() {
thread->Stop();
}
};
auto& system = Core::System::GetInstance();
stop_threads(system.Scheduler(0)->GetThreadList());
stop_threads(system.Scheduler(1)->GetThreadList());
stop_threads(system.Scheduler(2)->GetThreadList());
stop_threads(system.Scheduler(3)->GetThreadList());
// Kill the current thread
GetCurrentThread()->Stop();
@ -530,14 +536,9 @@ static ResultCode CreateThread(Handle* out_handle, VAddr entry_point, u64 arg, V
switch (processor_id) {
case THREADPROCESSORID_0:
break;
case THREADPROCESSORID_1:
case THREADPROCESSORID_2:
case THREADPROCESSORID_3:
// TODO(bunnei): Implement support for other processor IDs
NGLOG_ERROR(Kernel_SVC,
"Newly created thread must run in another thread ({}), unimplemented.",
processor_id);
break;
default:
ASSERT_MSG(false, "Unsupported thread processor ID: {}", processor_id);
@ -576,7 +577,7 @@ static ResultCode StartThread(Handle thread_handle) {
/// Called when a thread exits
static void ExitThread() {
NGLOG_TRACE(Kernel_SVC, "called, pc=0x{:08X}", Core::CPU().GetPC());
NGLOG_TRACE(Kernel_SVC, "called, pc=0x{:08X}", Core::CurrentArmInterface().GetPC());
ExitCurrentThread();
Core::System::GetInstance().PrepareReschedule();
@ -588,7 +589,7 @@ static void SleepThread(s64 nanoseconds) {
// Don't attempt to yield execution if there are no available threads to run,
// this way we avoid a useless reschedule to the idle thread.
if (nanoseconds == 0 && !Core::System::GetInstance().Scheduler().HaveReadyThreads())
if (nanoseconds == 0 && !Core::System::GetInstance().CurrentScheduler().HaveReadyThreads())
return;
// Sleep current thread and check for next thread to schedule
@ -634,7 +635,7 @@ static ResultCode SignalProcessWideKey(VAddr condition_variable_addr, s32 target
condition_variable_addr, target);
u32 processed = 0;
auto& thread_list = Core::System::GetInstance().Scheduler().GetThreadList();
auto& thread_list = Core::System::GetInstance().CurrentScheduler().GetThreadList();
for (auto& thread : thread_list) {
if (thread->condvar_wait_address != condition_variable_addr)

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@ -13,14 +13,14 @@
namespace Kernel {
#define PARAM(n) Core::CPU().GetReg(n)
#define PARAM(n) Core::CurrentArmInterface().GetReg(n)
/**
* HLE a function return from the current ARM userland process
* @param res Result to return
*/
static inline void FuncReturn(u64 res) {
Core::CPU().SetReg(0, res);
Core::CurrentArmInterface().SetReg(0, res);
}
////////////////////////////////////////////////////////////////////////////////////////////////////
@ -45,7 +45,7 @@ template <ResultCode func(u32*, u32)>
void SvcWrap() {
u32 param_1 = 0;
u32 retval = func(&param_1, (u32)PARAM(1)).raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}
@ -53,7 +53,7 @@ template <ResultCode func(u32*, u64)>
void SvcWrap() {
u32 param_1 = 0;
u32 retval = func(&param_1, PARAM(1)).raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}
@ -66,7 +66,7 @@ template <ResultCode func(u64*, u64)>
void SvcWrap() {
u64 param_1 = 0;
u32 retval = func(&param_1, PARAM(1)).raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}
@ -85,8 +85,8 @@ void SvcWrap() {
u32 param_1 = 0;
u64 param_2 = 0;
ResultCode retval = func((u32)(PARAM(2) & 0xFFFFFFFF), &param_1, &param_2);
Core::CPU().SetReg(1, param_1);
Core::CPU().SetReg(2, param_2);
Core::CurrentArmInterface().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(2, param_2);
FuncReturn(retval.raw);
}
@ -120,7 +120,7 @@ template <ResultCode func(u32*, u64, u64, s64)>
void SvcWrap() {
u32 param_1 = 0;
ResultCode retval = func(&param_1, PARAM(1), (u32)(PARAM(2) & 0xFFFFFFFF), (s64)PARAM(3));
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval.raw);
}
@ -133,7 +133,7 @@ template <ResultCode func(u64*, u64, u64, u64)>
void SvcWrap() {
u64 param_1 = 0;
u32 retval = func(&param_1, PARAM(1), PARAM(2), PARAM(3)).raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}
@ -143,7 +143,7 @@ void SvcWrap() {
u32 retval =
func(&param_1, PARAM(1), PARAM(2), PARAM(3), (u32)PARAM(4), (s32)(PARAM(5) & 0xFFFFFFFF))
.raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}
@ -166,7 +166,7 @@ template <ResultCode func(u32*, u64, u64, u32)>
void SvcWrap() {
u32 param_1 = 0;
u32 retval = func(&param_1, PARAM(1), PARAM(2), (u32)(PARAM(3) & 0xFFFFFFFF)).raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}
@ -175,7 +175,7 @@ void SvcWrap() {
u32 param_1 = 0;
u32 retval =
func(&param_1, PARAM(1), (u32)(PARAM(2) & 0xFFFFFFFF), (u32)(PARAM(3) & 0xFFFFFFFF)).raw;
Core::CPU().SetReg(1, param_1);
Core::CurrentArmInterface().SetReg(1, param_1);
FuncReturn(retval);
}

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@ -64,7 +64,7 @@ void Thread::Stop() {
// Clean up thread from ready queue
// This is only needed when the thread is termintated forcefully (SVC TerminateProcess)
if (status == THREADSTATUS_READY) {
Core::System::GetInstance().Scheduler().UnscheduleThread(this, current_priority);
scheduler->UnscheduleThread(this, current_priority);
}
status = THREADSTATUS_DEAD;
@ -92,7 +92,7 @@ void WaitCurrentThread_Sleep() {
void ExitCurrentThread() {
Thread* thread = GetCurrentThread();
thread->Stop();
Core::System::GetInstance().Scheduler().RemoveThread(thread);
Core::System::GetInstance().CurrentScheduler().RemoveThread(thread);
}
/**
@ -188,7 +188,7 @@ void Thread::ResumeFromWait() {
wakeup_callback = nullptr;
status = THREADSTATUS_READY;
Core::System::GetInstance().Scheduler().ScheduleThread(this, current_priority);
scheduler->ScheduleThread(this, current_priority);
Core::System::GetInstance().PrepareReschedule();
}
@ -259,8 +259,6 @@ ResultVal<SharedPtr<Thread>> Thread::Create(std::string name, VAddr entry_point,
SharedPtr<Thread> thread(new Thread);
Core::System::GetInstance().Scheduler().AddThread(thread, priority);
thread->thread_id = NewThreadId();
thread->status = THREADSTATUS_DORMANT;
thread->entry_point = entry_point;
@ -275,6 +273,8 @@ ResultVal<SharedPtr<Thread>> Thread::Create(std::string name, VAddr entry_point,
thread->name = std::move(name);
thread->callback_handle = wakeup_callback_handle_table.Create(thread).Unwrap();
thread->owner_process = owner_process;
thread->scheduler = Core::System().GetInstance().Scheduler(static_cast<size_t>(processor_id));
thread->scheduler->AddThread(thread, priority);
// Find the next available TLS index, and mark it as used
auto& tls_slots = owner_process->tls_slots;
@ -337,7 +337,7 @@ void Thread::SetPriority(u32 priority) {
}
void Thread::BoostPriority(u32 priority) {
Core::System::GetInstance().Scheduler().SetThreadPriority(this, priority);
scheduler->SetThreadPriority(this, priority);
current_priority = priority;
}
@ -406,7 +406,7 @@ void Thread::UpdatePriority() {
if (new_priority == current_priority)
return;
Core::System::GetInstance().Scheduler().SetThreadPriority(this, new_priority);
scheduler->SetThreadPriority(this, new_priority);
current_priority = new_priority;
@ -421,7 +421,7 @@ void Thread::UpdatePriority() {
* Gets the current thread
*/
Thread* GetCurrentThread() {
return Core::System::GetInstance().Scheduler().GetCurrentThread();
return Core::System::GetInstance().CurrentScheduler().GetCurrentThread();
}
void ThreadingInit() {

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@ -4,6 +4,7 @@
#pragma once
#include <memory>
#include <string>
#include <unordered_map>
#include <vector>
@ -56,6 +57,7 @@ enum class ThreadWakeupReason {
namespace Kernel {
class Process;
class Scheduler;
class Thread final : public WaitObject {
public:
@ -240,6 +242,8 @@ public:
// available. In case of a timeout, the object will be nullptr.
std::function<WakeupCallback> wakeup_callback;
std::shared_ptr<Scheduler> scheduler;
private:
Thread();
~Thread() override;

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@ -104,7 +104,14 @@ ResultVal<VMManager::VMAHandle> VMManager::MapMemoryBlock(VAddr target,
VirtualMemoryArea& final_vma = vma_handle->second;
ASSERT(final_vma.size == size);
Core::CPU().MapBackingMemory(target, size, block->data() + offset,
auto& system = Core::System::GetInstance();
system.ArmInterface(0).MapBackingMemory(target, size, block->data() + offset,
VMAPermission::ReadWriteExecute);
system.ArmInterface(1).MapBackingMemory(target, size, block->data() + offset,
VMAPermission::ReadWriteExecute);
system.ArmInterface(2).MapBackingMemory(target, size, block->data() + offset,
VMAPermission::ReadWriteExecute);
system.ArmInterface(3).MapBackingMemory(target, size, block->data() + offset,
VMAPermission::ReadWriteExecute);
final_vma.type = VMAType::AllocatedMemoryBlock;
@ -126,7 +133,11 @@ ResultVal<VMManager::VMAHandle> VMManager::MapBackingMemory(VAddr target, u8* me
VirtualMemoryArea& final_vma = vma_handle->second;
ASSERT(final_vma.size == size);
Core::CPU().MapBackingMemory(target, size, memory, VMAPermission::ReadWriteExecute);
auto& system = Core::System::GetInstance();
system.ArmInterface(0).MapBackingMemory(target, size, memory, VMAPermission::ReadWriteExecute);
system.ArmInterface(1).MapBackingMemory(target, size, memory, VMAPermission::ReadWriteExecute);
system.ArmInterface(2).MapBackingMemory(target, size, memory, VMAPermission::ReadWriteExecute);
system.ArmInterface(3).MapBackingMemory(target, size, memory, VMAPermission::ReadWriteExecute);
final_vma.type = VMAType::BackingMemory;
final_vma.permissions = VMAPermission::ReadWrite;
@ -184,7 +195,11 @@ ResultCode VMManager::UnmapRange(VAddr target, u64 size) {
ASSERT(FindVMA(target)->second.size >= size);
Core::CPU().UnmapMemory(target, size);
auto& system = Core::System::GetInstance();
system.ArmInterface(0).UnmapMemory(target, size);
system.ArmInterface(1).UnmapMemory(target, size);
system.ArmInterface(2).UnmapMemory(target, size);
system.ArmInterface(3).UnmapMemory(target, size);
return RESULT_SUCCESS;
}

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@ -28,8 +28,13 @@ static PageTable* current_page_table = nullptr;
void SetCurrentPageTable(PageTable* page_table) {
current_page_table = page_table;
if (Core::System::GetInstance().IsPoweredOn()) {
Core::CPU().PageTableChanged();
auto& system = Core::System::GetInstance();
if (system.IsPoweredOn()) {
system.ArmInterface(0).PageTableChanged();
system.ArmInterface(1).PageTableChanged();
system.ArmInterface(2).PageTableChanged();
system.ArmInterface(3).PageTableChanged();
}
}

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@ -63,7 +63,7 @@ void RegistersWidget::OnDebugModeEntered() {
for (int i = 0; i < core_registers->childCount(); ++i)
core_registers->child(i)->setText(
1, QString("0x%1").arg(Core::CPU().GetReg(i), 8, 16, QLatin1Char('0')));
1, QString("0x%1").arg(Core::CurrentArmInterface().GetReg(i), 8, 16, QLatin1Char('0')));
UpdateCPSRValues();
}
@ -122,7 +122,7 @@ void RegistersWidget::CreateCPSRChildren() {
}
void RegistersWidget::UpdateCPSRValues() {
const u32 cpsr_val = Core::CPU().GetCPSR();
const u32 cpsr_val = Core::CurrentArmInterface().GetCPSR();
cpsr->setText(1, QString("0x%1").arg(cpsr_val, 8, 16, QLatin1Char('0')));
cpsr->child(0)->setText(

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@ -51,7 +51,7 @@ std::size_t WaitTreeItem::Row() const {
}
std::vector<std::unique_ptr<WaitTreeThread>> WaitTreeItem::MakeThreadItemList() {
const auto& threads = Core::System::GetInstance().Scheduler().GetThreadList();
const auto& threads = Core::System::GetInstance().Scheduler(0)->GetThreadList();
std::vector<std::unique_ptr<WaitTreeThread>> item_list;
item_list.reserve(threads.size());
for (std::size_t i = 0; i < threads.size(); ++i) {