lldb/source/Plugins/Process/Windows/Common/NativeProcessWindows.cpp - llvm-project - Git at Google

 //===-- NativeProcessWindows.cpp ------------------------------------------===//
 //
 // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
 // See https://llvm.org/LICENSE.txt for license information.
 // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
 //
 //===----------------------------------------------------------------------===//

 #include "lldb/Host/windows/windows.h"
 #include <psapi.h>

 #include "NativeProcessWindows.h"
 #include "NativeThreadWindows.h"
 #include "lldb/Host/FileSystem.h"
 #include "lldb/Host/HostNativeProcessBase.h"
 #include "lldb/Host/HostProcess.h"
 #include "lldb/Host/ProcessLaunchInfo.h"
 #include "lldb/Host/windows/AutoHandle.h"
 #include "lldb/Host/windows/HostThreadWindows.h"
 #include "lldb/Host/windows/ProcessLauncherWindows.h"
 #include "lldb/Target/MemoryRegionInfo.h"
 #include "lldb/Target/Process.h"
 #include "lldb/Utility/State.h"
 #include "llvm/Support/ConvertUTF.h"
 #include "llvm/Support/Errc.h"
 #include "llvm/Support/Error.h"
 #include "llvm/Support/Format.h"
 #include "llvm/Support/Threading.h"
 #include "llvm/Support/raw_ostream.h"

 #include "DebuggerThread.h"
 #include "ExceptionRecord.h"
 #include "ProcessWindowsLog.h"

 #include <tlhelp32.h>

 #pragma warning(disable : 4005)
 #include "winternl.h"
 #include <ntstatus.h>

 using namespace lldb;
 using namespace lldb_private;
 using namespace llvm;

 namespace lldb_private {

 NativeProcessWindows::NativeProcessWindows(ProcessLaunchInfo &launch_info,
                                            NativeDelegate &delegate,
                                            llvm::Error &E)
     : NativeProcessProtocol(LLDB_INVALID_PROCESS_ID,
                             launch_info.GetPTY().ReleasePrimaryFileDescriptor(),
                             delegate),
       ProcessDebugger(), m_arch(launch_info.GetArchitecture()) {
   ErrorAsOutParameter EOut(&E);
   DebugDelegateSP delegate_sp(new NativeDebugDelegate(*this));
   E = LaunchProcess(launch_info, delegate_sp).ToError();
   if (E)
     return;

   SetID(GetDebuggedProcessId());
 }

 NativeProcessWindows::NativeProcessWindows(lldb::pid_t pid, int terminal_fd,
                                            NativeDelegate &delegate,
                                            llvm::Error &E)
     : NativeProcessProtocol(pid, terminal_fd, delegate), ProcessDebugger() {
   ErrorAsOutParameter EOut(&E);
   DebugDelegateSP delegate_sp(new NativeDebugDelegate(*this));
   ProcessAttachInfo attach_info;
   attach_info.SetProcessID(pid);
   E = AttachProcess(pid, attach_info, delegate_sp).ToError();
   if (E)
     return;

   SetID(GetDebuggedProcessId());

   ProcessInstanceInfo info;
   if (!Host::GetProcessInfo(pid, info)) {
     E = createStringError(inconvertibleErrorCode(),
                           "Cannot get process information");
     return;
   }
   m_arch = info.GetArchitecture();
 }

 Status NativeProcessWindows::Resume(const ResumeActionList &resume_actions) {
   Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
   Status error;
   llvm::sys::ScopedLock lock(m_mutex);

   StateType state = GetState();
   if (state == eStateStopped || state == eStateCrashed) {
     LLDB_LOG(log, "process {0} is in state {1}.  Resuming...",
              GetDebuggedProcessId(), state);
     LLDB_LOG(log, "resuming {0} threads.", m_threads.size());

     bool failed = false;
     for (uint32_t i = 0; i < m_threads.size(); ++i) {
       auto thread = static_cast<NativeThreadWindows *>(m_threads[i].get());
       const ResumeAction *const action =
           resume_actions.GetActionForThread(thread->GetID(), true);
       if (action == nullptr)
         continue;

       switch (action->state) {
       case eStateRunning:
       case eStateStepping: {
         Status result = thread->DoResume(action->state);
         if (result.Fail()) {
           failed = true;
           LLDB_LOG(log,
                    "Trying to resume thread at index {0}, but failed with "
                    "error {1}.",
                    i, result);
         }
         break;
       }
       case eStateSuspended:
       case eStateStopped:
         llvm_unreachable("Unexpected state");

       default:
         return Status(
             "NativeProcessWindows::%s (): unexpected state %s specified "
             "for pid %" PRIu64 ", tid %" PRIu64,
             __FUNCTION__, StateAsCString(action->state), GetID(),
             thread->GetID());
       }
     }

     if (failed) {
       error.SetErrorString("NativeProcessWindows::DoResume failed");
     } else {
       SetState(eStateRunning);
     }

     // Resume the debug loop.
     ExceptionRecordSP active_exception =
         m_session_data->m_debugger->GetActiveException().lock();
     if (active_exception) {
       // Resume the process and continue processing debug events.  Mask the
       // exception so that from the process's view, there is no indication that
       // anything happened.
       m_session_data->m_debugger->ContinueAsyncException(
           ExceptionResult::MaskException);
     }
   } else {
     LLDB_LOG(log, "error: process {0} is in state {1}.  Returning...",
              GetDebuggedProcessId(), GetState());
   }

   return error;
 }

 NativeThreadWindows *
 NativeProcessWindows::GetThreadByID(lldb::tid_t thread_id) {
   return static_cast<NativeThreadWindows *>(
       NativeProcessProtocol::GetThreadByID(thread_id));
 }

 Status NativeProcessWindows::Halt() {
   bool caused_stop = false;
   StateType state = GetState();
   if (state != eStateStopped)
     return HaltProcess(caused_stop);
   return Status();
 }

 Status NativeProcessWindows::Detach() {
   Status error;
   Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
   StateType state = GetState();
   if (state != eStateExited && state != eStateDetached) {
     error = DetachProcess();
     if (error.Success())
       SetState(eStateDetached);
     else
       LLDB_LOG(log, "Detaching process error: {0}", error);
   } else {
     error.SetErrorStringWithFormatv("error: process {0} in state = {1}, but "
                                     "cannot detach it in this state.",
                                     GetID(), state);
     LLDB_LOG(log, "error: {0}", error);
   }
   return error;
 }

 Status NativeProcessWindows::Signal(int signo) {
   Status error;
   error.SetErrorString("Windows does not support sending signals to processes");
   return error;
 }

 Status NativeProcessWindows::Interrupt() { return Halt(); }

 Status NativeProcessWindows::Kill() {
   StateType state = GetState();
   return DestroyProcess(state);
 }

 Status NativeProcessWindows::IgnoreSignals(llvm::ArrayRef<int> signals) {
   return Status();
 }

 Status NativeProcessWindows::GetMemoryRegionInfo(lldb::addr_t load_addr,
                                                  MemoryRegionInfo &range_info) {
   return ProcessDebugger::GetMemoryRegionInfo(load_addr, range_info);
 }

 Status NativeProcessWindows::ReadMemory(lldb::addr_t addr, void *buf,
                                         size_t size, size_t &bytes_read) {
   return ProcessDebugger::ReadMemory(addr, buf, size, bytes_read);
 }

 Status NativeProcessWindows::WriteMemory(lldb::addr_t addr, const void *buf,
                                          size_t size, size_t &bytes_written) {
   return ProcessDebugger::WriteMemory(addr, buf, size, bytes_written);
 }

 llvm::Expected<lldb::addr_t>
 NativeProcessWindows::AllocateMemory(size_t size, uint32_t permissions) {
   lldb::addr_t addr;
   Status ST = ProcessDebugger::AllocateMemory(size, permissions, addr);
   if (ST.Success())
     return addr;
   return ST.ToError();
 }

 llvm::Error NativeProcessWindows::DeallocateMemory(lldb::addr_t addr) {
   return ProcessDebugger::DeallocateMemory(addr).ToError();
 }

 lldb::addr_t NativeProcessWindows::GetSharedLibraryInfoAddress() { return 0; }

 bool NativeProcessWindows::IsAlive() const {
   StateType state = GetState();
   switch (state) {
   case eStateCrashed:
   case eStateDetached:
   case eStateExited:
   case eStateInvalid:
   case eStateUnloaded:
     return false;
   default:
     return true;
   }
 }

 void NativeProcessWindows::SetStopReasonForThread(NativeThreadWindows &thread,
                                                   lldb::StopReason reason,
                                                   std::string description) {
   SetCurrentThreadID(thread.GetID());

   ThreadStopInfo stop_info;
   stop_info.reason = reason;

   // No signal support on Windows but required to provide a 'valid' signum.
   if (reason == StopReason::eStopReasonException) {
     stop_info.details.exception.type = 0;
     stop_info.details.exception.data_count = 0;
   } else {
     stop_info.details.signal.signo = SIGTRAP;
   }

   thread.SetStopReason(stop_info, description);
 }

 void NativeProcessWindows::StopThread(lldb::tid_t thread_id,
                                       lldb::StopReason reason,
                                       std::string description) {
   NativeThreadWindows *thread = GetThreadByID(thread_id);
   if (!thread)
     return;

   for (uint32_t i = 0; i < m_threads.size(); ++i) {
     auto t = static_cast<NativeThreadWindows *>(m_threads[i].get());
     Status error = t->DoStop();
     if (error.Fail())
       exit(1);
   }
   SetStopReasonForThread(*thread, reason, description);
 }

 size_t NativeProcessWindows::UpdateThreads() { return m_threads.size(); }

 llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>>
 NativeProcessWindows::GetAuxvData() const {
   // Not available on this target.
   return llvm::errc::not_supported;
 }

 llvm::Expected<llvm::ArrayRef<uint8_t>>
 NativeProcessWindows::GetSoftwareBreakpointTrapOpcode(size_t size_hint) {
   static const uint8_t g_aarch64_opcode[] = {0x00, 0x00, 0x3e, 0xd4}; // brk #0xf000
   static const uint8_t g_thumb_opcode[] = {0xfe, 0xde}; // udf #0xfe

   switch (GetArchitecture().GetMachine()) {
   case llvm::Triple::aarch64:
     return llvm::makeArrayRef(g_aarch64_opcode);

   case llvm::Triple::arm:
   case llvm::Triple::thumb:
     return llvm::makeArrayRef(g_thumb_opcode);

   default:
     return NativeProcessProtocol::GetSoftwareBreakpointTrapOpcode(size_hint);
   }
 }

 size_t NativeProcessWindows::GetSoftwareBreakpointPCOffset() {
     // Windows always reports an incremented PC after a breakpoint is hit,
     // even on ARM.
     return cantFail(GetSoftwareBreakpointTrapOpcode(0)).size();
 }

 bool NativeProcessWindows::FindSoftwareBreakpoint(lldb::addr_t addr) {
   auto it = m_software_breakpoints.find(addr);
   if (it == m_software_breakpoints.end())
     return false;
   return true;
 }

 Status NativeProcessWindows::SetBreakpoint(lldb::addr_t addr, uint32_t size,
                                            bool hardware) {
   if (hardware)
     return SetHardwareBreakpoint(addr, size);
   return SetSoftwareBreakpoint(addr, size);
 }

 Status NativeProcessWindows::RemoveBreakpoint(lldb::addr_t addr,
                                               bool hardware) {
   if (hardware)
     return RemoveHardwareBreakpoint(addr);
   return RemoveSoftwareBreakpoint(addr);
 }

 Status NativeProcessWindows::CacheLoadedModules() {
   Status error;
   if (!m_loaded_modules.empty())
     return Status();

   // Retrieve loaded modules by a Target/Module free implemenation.
   AutoHandle snapshot(CreateToolhelp32Snapshot(TH32CS_SNAPMODULE, GetID()));
   if (snapshot.IsValid()) {
     MODULEENTRY32W me;
     me.dwSize = sizeof(MODULEENTRY32W);
     if (Module32FirstW(snapshot.get(), &me)) {
       do {
         std::string path;
         if (!llvm::convertWideToUTF8(me.szExePath, path))
           continue;

         FileSpec file_spec(path);
         FileSystem::Instance().Resolve(file_spec);
         m_loaded_modules[file_spec] = (addr_t)me.modBaseAddr;
       } while (Module32Next(snapshot.get(), &me));
     }

     if (!m_loaded_modules.empty())
       return Status();
   }

   error.SetError(::GetLastError(), lldb::ErrorType::eErrorTypeWin32);
   return error;
 }

 Status NativeProcessWindows::GetLoadedModuleFileSpec(const char *module_path,
                                                      FileSpec &file_spec) {
   Status error = CacheLoadedModules();
   if (error.Fail())
     return error;

   FileSpec module_file_spec(module_path);
   FileSystem::Instance().Resolve(module_file_spec);
   for (auto &it : m_loaded_modules) {
     if (it.first == module_file_spec) {
       file_spec = it.first;
       return Status();
     }
   }
   return Status("Module (%s) not found in process %" PRIu64 "!",
                 module_file_spec.GetCString(), GetID());
 }

 Status
 NativeProcessWindows::GetFileLoadAddress(const llvm::StringRef &file_name,
                                          lldb::addr_t &load_addr) {
   Status error = CacheLoadedModules();
   if (error.Fail())
     return error;

   load_addr = LLDB_INVALID_ADDRESS;
   FileSpec file_spec(file_name);
   FileSystem::Instance().Resolve(file_spec);
   for (auto &it : m_loaded_modules) {
     if (it.first == file_spec) {
       load_addr = it.second;
       return Status();
     }
   }
   return Status("Can't get loaded address of file (%s) in process %" PRIu64 "!",
                 file_spec.GetCString(), GetID());
 }

 void NativeProcessWindows::OnExitProcess(uint32_t exit_code) {
   Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
   LLDB_LOG(log, "Process {0} exited with code {1}", GetID(), exit_code);

   ProcessDebugger::OnExitProcess(exit_code);

   // No signal involved.  It is just an exit event.
   WaitStatus wait_status(WaitStatus::Exit, exit_code);
   SetExitStatus(wait_status, true);

   // Notify the native delegate.
   SetState(eStateExited, true);
 }

 void NativeProcessWindows::OnDebuggerConnected(lldb::addr_t image_base) {
   Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
   LLDB_LOG(log, "Debugger connected to process {0}. Image base = {1:x}",
            GetDebuggedProcessId(), image_base);

   // This is the earliest chance we can resolve the process ID and
   // architecture if we don't know them yet.
   if (GetID() == LLDB_INVALID_PROCESS_ID)
     SetID(GetDebuggedProcessId());

   if (GetArchitecture().GetMachine() == llvm::Triple::UnknownArch) {
     ProcessInstanceInfo process_info;
     if (!Host::GetProcessInfo(GetDebuggedProcessId(), process_info)) {
       LLDB_LOG(log, "Cannot get process information during debugger connecting "
                     "to process");
       return;
     }
     SetArchitecture(process_info.GetArchitecture());
   }

   // The very first one shall always be the main thread.
   assert(m_threads.empty());
   m_threads.push_back(std::make_unique<NativeThreadWindows>(
       *this, m_session_data->m_debugger->GetMainThread()));
 }

 ExceptionResult
 NativeProcessWindows::OnDebugException(bool first_chance,
                                        const ExceptionRecord &record) {
   Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_EXCEPTION);
   llvm::sys::ScopedLock lock(m_mutex);

   // Let the debugger establish the internal status.
   ProcessDebugger::OnDebugException(first_chance, record);

   static bool initial_stop = false;
   if (!first_chance) {
     SetState(eStateStopped, false);
   }

   ExceptionResult result = ExceptionResult::SendToApplication;
   switch (record.GetExceptionCode()) {
   case DWORD(STATUS_SINGLE_STEP):
   case STATUS_WX86_SINGLE_STEP: {
     uint32_t wp_id = LLDB_INVALID_INDEX32;
     if (NativeThreadWindows *thread = GetThreadByID(record.GetThreadID())) {
       NativeRegisterContextWindows &reg_ctx = thread->GetRegisterContext();
       Status error =
           reg_ctx.GetWatchpointHitIndex(wp_id, record.GetExceptionAddress());
       if (error.Fail())
         LLDB_LOG(log,
                  "received error while checking for watchpoint hits, pid = "
                  "{0}, error = {1}",
                  thread->GetID(), error);
       if (wp_id != LLDB_INVALID_INDEX32) {
         addr_t wp_addr = reg_ctx.GetWatchpointAddress(wp_id);
         addr_t wp_hit_addr = reg_ctx.GetWatchpointHitAddress(wp_id);
         std::string desc =
             formatv("{0} {1} {2}", wp_addr, wp_id, wp_hit_addr).str();
         StopThread(record.GetThreadID(), StopReason::eStopReasonWatchpoint,
                    desc);
       }
     }
     if (wp_id == LLDB_INVALID_INDEX32)
       StopThread(record.GetThreadID(), StopReason::eStopReasonTrace);

     SetState(eStateStopped, true);

     // Continue the debugger.
     return ExceptionResult::MaskException;
   }
   case DWORD(STATUS_BREAKPOINT):
   case STATUS_WX86_BREAKPOINT:
     if (FindSoftwareBreakpoint(record.GetExceptionAddress())) {
       LLDB_LOG(log, "Hit non-loader breakpoint at address {0:x}.",
                record.GetExceptionAddress());

       StopThread(record.GetThreadID(), StopReason::eStopReasonBreakpoint);

       if (NativeThreadWindows *stop_thread =
               GetThreadByID(record.GetThreadID())) {
         auto &register_context = stop_thread->GetRegisterContext();
         uint32_t breakpoint_size = GetSoftwareBreakpointPCOffset();
         // The current PC is AFTER the BP opcode, on all architectures.
         uint64_t pc = register_context.GetPC() - breakpoint_size;
         register_context.SetPC(pc);
       }

       SetState(eStateStopped, true);
       return ExceptionResult::MaskException;
     }

     if (!initial_stop) {
       initial_stop = true;
       LLDB_LOG(log,
                "Hit loader breakpoint at address {0:x}, setting initial stop "
                "event.",
                record.GetExceptionAddress());

       // We are required to report the reason for the first stop after
       // launching or being attached.
       if (NativeThreadWindows *thread = GetThreadByID(record.GetThreadID()))
         SetStopReasonForThread(*thread, StopReason::eStopReasonBreakpoint);

       // Do not notify the native delegate (e.g. llgs) since at this moment
       // the program hasn't returned from Factory::Launch() and the delegate
       // might not have an valid native process to operate on.
       SetState(eStateStopped, false);

       // Hit the initial stop. Continue the application.
       return ExceptionResult::BreakInDebugger;
     }

     LLVM_FALLTHROUGH;
   default:
     LLDB_LOG(log,
              "Debugger thread reported exception {0:x} at address {1:x} "
              "(first_chance={2})",
              record.GetExceptionCode(), record.GetExceptionAddress(),
              first_chance);

     {
       std::string desc;
       llvm::raw_string_ostream desc_stream(desc);
       desc_stream << "Exception "
                   << llvm::format_hex(record.GetExceptionCode(), 8)
                   << " encountered at address "
                   << llvm::format_hex(record.GetExceptionAddress(), 8);
       StopThread(record.GetThreadID(), StopReason::eStopReasonException,
                  desc_stream.str().c_str());

       SetState(eStateStopped, true);
     }

     // For non-breakpoints, give the application a chance to handle the
     // exception first.
     if (first_chance)
       result = ExceptionResult::SendToApplication;
     else
       result = ExceptionResult::BreakInDebugger;
   }

   return result;
 }

 void NativeProcessWindows::OnCreateThread(const HostThread &new_thread) {
   llvm::sys::ScopedLock lock(m_mutex);

   auto thread = std::make_unique<NativeThreadWindows>(*this, new_thread);
   thread->GetRegisterContext().ClearAllHardwareWatchpoints();
   for (const auto &pair : GetWatchpointMap()) {
     const NativeWatchpoint &wp = pair.second;
     thread->SetWatchpoint(wp.m_addr, wp.m_size, wp.m_watch_flags,
                           wp.m_hardware);
   }

   m_threads.push_back(std::move(thread));
 }

 void NativeProcessWindows::OnExitThread(lldb::tid_t thread_id,
                                         uint32_t exit_code) {
   llvm::sys::ScopedLock lock(m_mutex);
   NativeThreadWindows *thread = GetThreadByID(thread_id);
   if (!thread)
     return;

   for (auto t = m_threads.begin(); t != m_threads.end();) {
     if ((*t)->GetID() == thread_id) {
       t = m_threads.erase(t);
     } else {
       ++t;
     }
   }
 }

 void NativeProcessWindows::OnLoadDll(const ModuleSpec &module_spec,
                                      lldb::addr_t module_addr) {
   // Simply invalidate the cached loaded modules.
   if (!m_loaded_modules.empty())
     m_loaded_modules.clear();
 }

 void NativeProcessWindows::OnUnloadDll(lldb::addr_t module_addr) {
   if (!m_loaded_modules.empty())
     m_loaded_modules.clear();
 }

 llvm::Expected<std::unique_ptr<NativeProcessProtocol>>
 NativeProcessWindows::Factory::Launch(
     ProcessLaunchInfo &launch_info,
     NativeProcessProtocol::NativeDelegate &native_delegate,
     MainLoop &mainloop) const {
   Error E = Error::success();
   auto process_up = std::unique_ptr<NativeProcessWindows>(
       new NativeProcessWindows(launch_info, native_delegate, E));
   if (E)
     return std::move(E);
   return std::move(process_up);
 }

 llvm::Expected<std::unique_ptr<NativeProcessProtocol>>
 NativeProcessWindows::Factory::Attach(
     lldb::pid_t pid, NativeProcessProtocol::NativeDelegate &native_delegate,
     MainLoop &mainloop) const {
   Error E = Error::success();
   // Set pty primary fd invalid since it is not available.
   auto process_up = std::unique_ptr<NativeProcessWindows>(
       new NativeProcessWindows(pid, -1, native_delegate, E));
   if (E)
     return std::move(E);
   return std::move(process_up);
 }
 } // namespace lldb_private
	//===-- NativeProcessWindows.cpp ------------------------------------------===//
	//
	// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
	// See https://llvm.org/LICENSE.txt for license information.
	// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
	//
	//===----------------------------------------------------------------------===//

	#include "lldb/Host/windows/windows.h"
	#include <psapi.h>

	#include "NativeProcessWindows.h"
	#include "NativeThreadWindows.h"
	#include "lldb/Host/FileSystem.h"
	#include "lldb/Host/HostNativeProcessBase.h"
	#include "lldb/Host/HostProcess.h"
	#include "lldb/Host/ProcessLaunchInfo.h"
	#include "lldb/Host/windows/AutoHandle.h"
	#include "lldb/Host/windows/HostThreadWindows.h"
	#include "lldb/Host/windows/ProcessLauncherWindows.h"
	#include "lldb/Target/MemoryRegionInfo.h"
	#include "lldb/Target/Process.h"
	#include "lldb/Utility/State.h"
	#include "llvm/Support/ConvertUTF.h"
	#include "llvm/Support/Errc.h"
	#include "llvm/Support/Error.h"
	#include "llvm/Support/Format.h"
	#include "llvm/Support/Threading.h"
	#include "llvm/Support/raw_ostream.h"

	#include "DebuggerThread.h"
	#include "ExceptionRecord.h"
	#include "ProcessWindowsLog.h"

	#include <tlhelp32.h>

	#pragma warning(disable : 4005)
	#include "winternl.h"
	#include <ntstatus.h>

	using namespace lldb;
	using namespace lldb_private;
	using namespace llvm;

	namespace lldb_private {

	NativeProcessWindows::NativeProcessWindows(ProcessLaunchInfo &launch_info,
	NativeDelegate &delegate,
	llvm::Error &E)
	: NativeProcessProtocol(LLDB_INVALID_PROCESS_ID,
	launch_info.GetPTY().ReleasePrimaryFileDescriptor(),
	delegate),
	ProcessDebugger(), m_arch(launch_info.GetArchitecture()) {
	ErrorAsOutParameter EOut(&E);
	DebugDelegateSP delegate_sp(new NativeDebugDelegate(*this));
	E = LaunchProcess(launch_info, delegate_sp).ToError();
	if (E)
	return;

	SetID(GetDebuggedProcessId());
	}

	NativeProcessWindows::NativeProcessWindows(lldb::pid_t pid, int terminal_fd,
	NativeDelegate &delegate,
	llvm::Error &E)
	: NativeProcessProtocol(pid, terminal_fd, delegate), ProcessDebugger() {
	ErrorAsOutParameter EOut(&E);
	DebugDelegateSP delegate_sp(new NativeDebugDelegate(*this));
	ProcessAttachInfo attach_info;
	attach_info.SetProcessID(pid);
	E = AttachProcess(pid, attach_info, delegate_sp).ToError();
	if (E)
	return;

	SetID(GetDebuggedProcessId());

	ProcessInstanceInfo info;
	if (!Host::GetProcessInfo(pid, info)) {
	E = createStringError(inconvertibleErrorCode(),
	"Cannot get process information");
	return;
	}
	m_arch = info.GetArchitecture();
	}

	Status NativeProcessWindows::Resume(const ResumeActionList &resume_actions) {
	Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
	Status error;
	llvm::sys::ScopedLock lock(m_mutex);

	StateType state = GetState();
	if (state == eStateStopped \|\| state == eStateCrashed) {
	LLDB_LOG(log, "process {0} is in state {1}. Resuming...",
	GetDebuggedProcessId(), state);
	LLDB_LOG(log, "resuming {0} threads.", m_threads.size());

	bool failed = false;
	for (uint32_t i = 0; i < m_threads.size(); ++i) {
	auto thread = static_cast<NativeThreadWindows *>(m_threads[i].get());
	const ResumeAction *const action =
	resume_actions.GetActionForThread(thread->GetID(), true);
	if (action == nullptr)
	continue;

	switch (action->state) {
	case eStateRunning:
	case eStateStepping: {
	Status result = thread->DoResume(action->state);
	if (result.Fail()) {
	failed = true;
	LLDB_LOG(log,
	"Trying to resume thread at index {0}, but failed with "
	"error {1}.",
	i, result);
	}
	break;
	}
	case eStateSuspended:
	case eStateStopped:
	llvm_unreachable("Unexpected state");

	default:
	return Status(
	"NativeProcessWindows::%s (): unexpected state %s specified "
	"for pid %" PRIu64 ", tid %" PRIu64,
	__FUNCTION__, StateAsCString(action->state), GetID(),
	thread->GetID());
	}
	}

	if (failed) {
	error.SetErrorString("NativeProcessWindows::DoResume failed");
	} else {
	SetState(eStateRunning);
	}

	// Resume the debug loop.
	ExceptionRecordSP active_exception =
	m_session_data->m_debugger->GetActiveException().lock();
	if (active_exception) {
	// Resume the process and continue processing debug events. Mask the
	// exception so that from the process's view, there is no indication that
	// anything happened.
	m_session_data->m_debugger->ContinueAsyncException(
	ExceptionResult::MaskException);
	}
	} else {
	LLDB_LOG(log, "error: process {0} is in state {1}. Returning...",
	GetDebuggedProcessId(), GetState());
	}

	return error;
	}

	NativeThreadWindows *
	NativeProcessWindows::GetThreadByID(lldb::tid_t thread_id) {
	return static_cast<NativeThreadWindows *>(
	NativeProcessProtocol::GetThreadByID(thread_id));
	}

	Status NativeProcessWindows::Halt() {
	bool caused_stop = false;
	StateType state = GetState();
	if (state != eStateStopped)
	return HaltProcess(caused_stop);
	return Status();
	}

	Status NativeProcessWindows::Detach() {
	Status error;
	Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
	StateType state = GetState();
	if (state != eStateExited && state != eStateDetached) {
	error = DetachProcess();
	if (error.Success())
	SetState(eStateDetached);
	else
	LLDB_LOG(log, "Detaching process error: {0}", error);
	} else {
	error.SetErrorStringWithFormatv("error: process {0} in state = {1}, but "
	"cannot detach it in this state.",
	GetID(), state);
	LLDB_LOG(log, "error: {0}", error);
	}
	return error;
	}

	Status NativeProcessWindows::Signal(int signo) {
	Status error;
	error.SetErrorString("Windows does not support sending signals to processes");
	return error;
	}

	Status NativeProcessWindows::Interrupt() { return Halt(); }

	Status NativeProcessWindows::Kill() {
	StateType state = GetState();
	return DestroyProcess(state);
	}

	Status NativeProcessWindows::IgnoreSignals(llvm::ArrayRef<int> signals) {
	return Status();
	}

	Status NativeProcessWindows::GetMemoryRegionInfo(lldb::addr_t load_addr,
	MemoryRegionInfo &range_info) {
	return ProcessDebugger::GetMemoryRegionInfo(load_addr, range_info);
	}

	Status NativeProcessWindows::ReadMemory(lldb::addr_t addr, void *buf,
	size_t size, size_t &bytes_read) {
	return ProcessDebugger::ReadMemory(addr, buf, size, bytes_read);
	}

	Status NativeProcessWindows::WriteMemory(lldb::addr_t addr, const void *buf,
	size_t size, size_t &bytes_written) {
	return ProcessDebugger::WriteMemory(addr, buf, size, bytes_written);
	}

	llvm::Expected<lldb::addr_t>
	NativeProcessWindows::AllocateMemory(size_t size, uint32_t permissions) {
	lldb::addr_t addr;
	Status ST = ProcessDebugger::AllocateMemory(size, permissions, addr);
	if (ST.Success())
	return addr;
	return ST.ToError();
	}

	llvm::Error NativeProcessWindows::DeallocateMemory(lldb::addr_t addr) {
	return ProcessDebugger::DeallocateMemory(addr).ToError();
	}

	lldb::addr_t NativeProcessWindows::GetSharedLibraryInfoAddress() { return 0; }

	bool NativeProcessWindows::IsAlive() const {
	StateType state = GetState();
	switch (state) {
	case eStateCrashed:
	case eStateDetached:
	case eStateExited:
	case eStateInvalid:
	case eStateUnloaded:
	return false;
	default:
	return true;
	}
	}

	void NativeProcessWindows::SetStopReasonForThread(NativeThreadWindows &thread,
	lldb::StopReason reason,
	std::string description) {
	SetCurrentThreadID(thread.GetID());

	ThreadStopInfo stop_info;
	stop_info.reason = reason;

	// No signal support on Windows but required to provide a 'valid' signum.
	if (reason == StopReason::eStopReasonException) {
	stop_info.details.exception.type = 0;
	stop_info.details.exception.data_count = 0;
	} else {
	stop_info.details.signal.signo = SIGTRAP;
	}

	thread.SetStopReason(stop_info, description);
	}

	void NativeProcessWindows::StopThread(lldb::tid_t thread_id,
	lldb::StopReason reason,
	std::string description) {
	NativeThreadWindows *thread = GetThreadByID(thread_id);
	if (!thread)
	return;

	for (uint32_t i = 0; i < m_threads.size(); ++i) {
	auto t = static_cast<NativeThreadWindows *>(m_threads[i].get());
	Status error = t->DoStop();
	if (error.Fail())
	exit(1);
	}
	SetStopReasonForThread(*thread, reason, description);
	}

	size_t NativeProcessWindows::UpdateThreads() { return m_threads.size(); }

	llvm::ErrorOr<std::unique_ptr<llvm::MemoryBuffer>>
	NativeProcessWindows::GetAuxvData() const {
	// Not available on this target.
	return llvm::errc::not_supported;
	}

	llvm::Expected<llvm::ArrayRef<uint8_t>>
	NativeProcessWindows::GetSoftwareBreakpointTrapOpcode(size_t size_hint) {
	static const uint8_t g_aarch64_opcode[] = {0x00, 0x00, 0x3e, 0xd4}; // brk #0xf000
	static const uint8_t g_thumb_opcode[] = {0xfe, 0xde}; // udf #0xfe

	switch (GetArchitecture().GetMachine()) {
	case llvm::Triple::aarch64:
	return llvm::makeArrayRef(g_aarch64_opcode);

	case llvm::Triple::arm:
	case llvm::Triple::thumb:
	return llvm::makeArrayRef(g_thumb_opcode);

	default:
	return NativeProcessProtocol::GetSoftwareBreakpointTrapOpcode(size_hint);
	}
	}

	size_t NativeProcessWindows::GetSoftwareBreakpointPCOffset() {
	// Windows always reports an incremented PC after a breakpoint is hit,
	// even on ARM.
	return cantFail(GetSoftwareBreakpointTrapOpcode(0)).size();
	}

	bool NativeProcessWindows::FindSoftwareBreakpoint(lldb::addr_t addr) {
	auto it = m_software_breakpoints.find(addr);
	if (it == m_software_breakpoints.end())
	return false;
	return true;
	}

	Status NativeProcessWindows::SetBreakpoint(lldb::addr_t addr, uint32_t size,
	bool hardware) {
	if (hardware)
	return SetHardwareBreakpoint(addr, size);
	return SetSoftwareBreakpoint(addr, size);
	}

	Status NativeProcessWindows::RemoveBreakpoint(lldb::addr_t addr,
	bool hardware) {
	if (hardware)
	return RemoveHardwareBreakpoint(addr);
	return RemoveSoftwareBreakpoint(addr);
	}

	Status NativeProcessWindows::CacheLoadedModules() {
	Status error;
	if (!m_loaded_modules.empty())
	return Status();

	// Retrieve loaded modules by a Target/Module free implemenation.
	AutoHandle snapshot(CreateToolhelp32Snapshot(TH32CS_SNAPMODULE, GetID()));
	if (snapshot.IsValid()) {
	MODULEENTRY32W me;
	me.dwSize = sizeof(MODULEENTRY32W);
	if (Module32FirstW(snapshot.get(), &me)) {
	do {
	std::string path;
	if (!llvm::convertWideToUTF8(me.szExePath, path))
	continue;

	FileSpec file_spec(path);
	FileSystem::Instance().Resolve(file_spec);
	m_loaded_modules[file_spec] = (addr_t)me.modBaseAddr;
	} while (Module32Next(snapshot.get(), &me));
	}

	if (!m_loaded_modules.empty())
	return Status();
	}

	error.SetError(::GetLastError(), lldb::ErrorType::eErrorTypeWin32);
	return error;
	}

	Status NativeProcessWindows::GetLoadedModuleFileSpec(const char *module_path,
	FileSpec &file_spec) {
	Status error = CacheLoadedModules();
	if (error.Fail())
	return error;

	FileSpec module_file_spec(module_path);
	FileSystem::Instance().Resolve(module_file_spec);
	for (auto &it : m_loaded_modules) {
	if (it.first == module_file_spec) {
	file_spec = it.first;
	return Status();
	}
	}
	return Status("Module (%s) not found in process %" PRIu64 "!",
	module_file_spec.GetCString(), GetID());
	}

	Status
	NativeProcessWindows::GetFileLoadAddress(const llvm::StringRef &file_name,
	lldb::addr_t &load_addr) {
	Status error = CacheLoadedModules();
	if (error.Fail())
	return error;

	load_addr = LLDB_INVALID_ADDRESS;
	FileSpec file_spec(file_name);
	FileSystem::Instance().Resolve(file_spec);
	for (auto &it : m_loaded_modules) {
	if (it.first == file_spec) {
	load_addr = it.second;
	return Status();
	}
	}
	return Status("Can't get loaded address of file (%s) in process %" PRIu64 "!",
	file_spec.GetCString(), GetID());
	}

	void NativeProcessWindows::OnExitProcess(uint32_t exit_code) {
	Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
	LLDB_LOG(log, "Process {0} exited with code {1}", GetID(), exit_code);

	ProcessDebugger::OnExitProcess(exit_code);

	// No signal involved. It is just an exit event.
	WaitStatus wait_status(WaitStatus::Exit, exit_code);
	SetExitStatus(wait_status, true);

	// Notify the native delegate.
	SetState(eStateExited, true);
	}

	void NativeProcessWindows::OnDebuggerConnected(lldb::addr_t image_base) {
	Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_PROCESS);
	LLDB_LOG(log, "Debugger connected to process {0}. Image base = {1:x}",
	GetDebuggedProcessId(), image_base);

	// This is the earliest chance we can resolve the process ID and
	// architecture if we don't know them yet.
	if (GetID() == LLDB_INVALID_PROCESS_ID)
	SetID(GetDebuggedProcessId());

	if (GetArchitecture().GetMachine() == llvm::Triple::UnknownArch) {
	ProcessInstanceInfo process_info;
	if (!Host::GetProcessInfo(GetDebuggedProcessId(), process_info)) {
	LLDB_LOG(log, "Cannot get process information during debugger connecting "
	"to process");
	return;
	}
	SetArchitecture(process_info.GetArchitecture());
	}

	// The very first one shall always be the main thread.
	assert(m_threads.empty());
	m_threads.push_back(std::make_unique<NativeThreadWindows>(
	*this, m_session_data->m_debugger->GetMainThread()));
	}

	ExceptionResult
	NativeProcessWindows::OnDebugException(bool first_chance,
	const ExceptionRecord &record) {
	Log *log = ProcessWindowsLog::GetLogIfAny(WINDOWS_LOG_EXCEPTION);
	llvm::sys::ScopedLock lock(m_mutex);

	// Let the debugger establish the internal status.
	ProcessDebugger::OnDebugException(first_chance, record);

	static bool initial_stop = false;
	if (!first_chance) {
	SetState(eStateStopped, false);
	}

	ExceptionResult result = ExceptionResult::SendToApplication;
	switch (record.GetExceptionCode()) {
	case DWORD(STATUS_SINGLE_STEP):
	case STATUS_WX86_SINGLE_STEP: {
	uint32_t wp_id = LLDB_INVALID_INDEX32;
	if (NativeThreadWindows *thread = GetThreadByID(record.GetThreadID())) {
	NativeRegisterContextWindows &reg_ctx = thread->GetRegisterContext();
	Status error =
	reg_ctx.GetWatchpointHitIndex(wp_id, record.GetExceptionAddress());
	if (error.Fail())
	LLDB_LOG(log,
	"received error while checking for watchpoint hits, pid = "
	"{0}, error = {1}",
	thread->GetID(), error);
	if (wp_id != LLDB_INVALID_INDEX32) {
	addr_t wp_addr = reg_ctx.GetWatchpointAddress(wp_id);
	addr_t wp_hit_addr = reg_ctx.GetWatchpointHitAddress(wp_id);
	std::string desc =
	formatv("{0} {1} {2}", wp_addr, wp_id, wp_hit_addr).str();
	StopThread(record.GetThreadID(), StopReason::eStopReasonWatchpoint,
	desc);
	}
	}
	if (wp_id == LLDB_INVALID_INDEX32)
	StopThread(record.GetThreadID(), StopReason::eStopReasonTrace);

	SetState(eStateStopped, true);

	// Continue the debugger.
	return ExceptionResult::MaskException;
	}
	case DWORD(STATUS_BREAKPOINT):
	case STATUS_WX86_BREAKPOINT:
	if (FindSoftwareBreakpoint(record.GetExceptionAddress())) {
	LLDB_LOG(log, "Hit non-loader breakpoint at address {0:x}.",
	record.GetExceptionAddress());

	StopThread(record.GetThreadID(), StopReason::eStopReasonBreakpoint);

	if (NativeThreadWindows *stop_thread =
	GetThreadByID(record.GetThreadID())) {
	auto &register_context = stop_thread->GetRegisterContext();
	uint32_t breakpoint_size = GetSoftwareBreakpointPCOffset();
	// The current PC is AFTER the BP opcode, on all architectures.
	uint64_t pc = register_context.GetPC() - breakpoint_size;
	register_context.SetPC(pc);
	}

	SetState(eStateStopped, true);
	return ExceptionResult::MaskException;
	}

	if (!initial_stop) {
	initial_stop = true;
	LLDB_LOG(log,
	"Hit loader breakpoint at address {0:x}, setting initial stop "
	"event.",
	record.GetExceptionAddress());

	// We are required to report the reason for the first stop after
	// launching or being attached.
	if (NativeThreadWindows *thread = GetThreadByID(record.GetThreadID()))
	SetStopReasonForThread(*thread, StopReason::eStopReasonBreakpoint);

	// Do not notify the native delegate (e.g. llgs) since at this moment
	// the program hasn't returned from Factory::Launch() and the delegate
	// might not have an valid native process to operate on.
	SetState(eStateStopped, false);

	// Hit the initial stop. Continue the application.
	return ExceptionResult::BreakInDebugger;
	}

	LLVM_FALLTHROUGH;
	default:
	LLDB_LOG(log,
	"Debugger thread reported exception {0:x} at address {1:x} "
	"(first_chance={2})",
	record.GetExceptionCode(), record.GetExceptionAddress(),
	first_chance);

	{
	std::string desc;
	llvm::raw_string_ostream desc_stream(desc);
	desc_stream << "Exception "
	<< llvm::format_hex(record.GetExceptionCode(), 8)
	<< " encountered at address "
	<< llvm::format_hex(record.GetExceptionAddress(), 8);
	StopThread(record.GetThreadID(), StopReason::eStopReasonException,
	desc_stream.str().c_str());

	SetState(eStateStopped, true);
	}

	// For non-breakpoints, give the application a chance to handle the
	// exception first.
	if (first_chance)
	result = ExceptionResult::SendToApplication;
	else
	result = ExceptionResult::BreakInDebugger;
	}

	return result;
	}

	void NativeProcessWindows::OnCreateThread(const HostThread &new_thread) {
	llvm::sys::ScopedLock lock(m_mutex);

	auto thread = std::make_unique<NativeThreadWindows>(*this, new_thread);
	thread->GetRegisterContext().ClearAllHardwareWatchpoints();
	for (const auto &pair : GetWatchpointMap()) {
	const NativeWatchpoint &wp = pair.second;
	thread->SetWatchpoint(wp.m_addr, wp.m_size, wp.m_watch_flags,
	wp.m_hardware);
	}

	m_threads.push_back(std::move(thread));
	}

	void NativeProcessWindows::OnExitThread(lldb::tid_t thread_id,
	uint32_t exit_code) {
	llvm::sys::ScopedLock lock(m_mutex);
	NativeThreadWindows *thread = GetThreadByID(thread_id);
	if (!thread)
	return;

	for (auto t = m_threads.begin(); t != m_threads.end();) {
	if ((*t)->GetID() == thread_id) {
	t = m_threads.erase(t);
	} else {
	++t;
	}
	}
	}

	void NativeProcessWindows::OnLoadDll(const ModuleSpec &module_spec,
	lldb::addr_t module_addr) {
	// Simply invalidate the cached loaded modules.
	if (!m_loaded_modules.empty())
	m_loaded_modules.clear();
	}

	void NativeProcessWindows::OnUnloadDll(lldb::addr_t module_addr) {
	if (!m_loaded_modules.empty())
	m_loaded_modules.clear();
	}

	llvm::Expected<std::unique_ptr<NativeProcessProtocol>>
	NativeProcessWindows::Factory::Launch(
	ProcessLaunchInfo &launch_info,
	NativeProcessProtocol::NativeDelegate &native_delegate,
	MainLoop &mainloop) const {
	Error E = Error::success();
	auto process_up = std::unique_ptr<NativeProcessWindows>(
	new NativeProcessWindows(launch_info, native_delegate, E));
	if (E)
	return std::move(E);
	return std::move(process_up);
	}

	llvm::Expected<std::unique_ptr<NativeProcessProtocol>>
	NativeProcessWindows::Factory::Attach(
	lldb::pid_t pid, NativeProcessProtocol::NativeDelegate &native_delegate,
	MainLoop &mainloop) const {
	Error E = Error::success();
	// Set pty primary fd invalid since it is not available.
	auto process_up = std::unique_ptr<NativeProcessWindows>(
	new NativeProcessWindows(pid, -1, native_delegate, E));
	if (E)
	return std::move(E);
	return std::move(process_up);
	}
	} // namespace lldb_private