src/third_party/llvm-project/lldb/source/Plugins/Process/Linux/NativeThreadLinux.cpp - cobalt - Git at Google

 //===-- NativeThreadLinux.cpp --------------------------------- -*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "NativeThreadLinux.h"

 #include <signal.h>
 #include <sstream>

 #include "NativeProcessLinux.h"
 #include "NativeRegisterContextLinux.h"
 #include "SingleStepCheck.h"

 #include "lldb/Core/State.h"
 #include "lldb/Host/HostNativeThread.h"
 #include "lldb/Host/linux/Ptrace.h"
 #include "lldb/Host/linux/Support.h"
 #include "lldb/Utility/LLDBAssert.h"
 #include "lldb/Utility/Log.h"
 #include "lldb/lldb-enumerations.h"

 #include "llvm/ADT/SmallString.h"

 #include "Plugins/Process/POSIX/CrashReason.h"

 #include <sys/syscall.h>
 // Try to define a macro to encapsulate the tgkill syscall
 #define tgkill(pid, tid, sig)                                                  \
   syscall(__NR_tgkill, static_cast<::pid_t>(pid), static_cast<::pid_t>(tid),   \
           sig)

 using namespace lldb;
 using namespace lldb_private;
 using namespace lldb_private::process_linux;

 namespace {
 void LogThreadStopInfo(Log &log, const ThreadStopInfo &stop_info,
                        const char *const header) {
   switch (stop_info.reason) {
   case eStopReasonNone:
     log.Printf("%s: %s no stop reason", __FUNCTION__, header);
     return;
   case eStopReasonTrace:
     log.Printf("%s: %s trace, stopping signal 0x%" PRIx32, __FUNCTION__, header,
                stop_info.details.signal.signo);
     return;
   case eStopReasonBreakpoint:
     log.Printf("%s: %s breakpoint, stopping signal 0x%" PRIx32, __FUNCTION__,
                header, stop_info.details.signal.signo);
     return;
   case eStopReasonWatchpoint:
     log.Printf("%s: %s watchpoint, stopping signal 0x%" PRIx32, __FUNCTION__,
                header, stop_info.details.signal.signo);
     return;
   case eStopReasonSignal:
     log.Printf("%s: %s signal 0x%02" PRIx32, __FUNCTION__, header,
                stop_info.details.signal.signo);
     return;
   case eStopReasonException:
     log.Printf("%s: %s exception type 0x%02" PRIx64, __FUNCTION__, header,
                stop_info.details.exception.type);
     return;
   case eStopReasonExec:
     log.Printf("%s: %s exec, stopping signal 0x%" PRIx32, __FUNCTION__, header,
                stop_info.details.signal.signo);
     return;
   case eStopReasonPlanComplete:
     log.Printf("%s: %s plan complete", __FUNCTION__, header);
     return;
   case eStopReasonThreadExiting:
     log.Printf("%s: %s thread exiting", __FUNCTION__, header);
     return;
   case eStopReasonInstrumentation:
     log.Printf("%s: %s instrumentation", __FUNCTION__, header);
     return;
   default:
     log.Printf("%s: %s invalid stop reason %" PRIu32, __FUNCTION__, header,
                static_cast<uint32_t>(stop_info.reason));
   }
 }
 }

 NativeThreadLinux::NativeThreadLinux(NativeProcessLinux &process,
                                      lldb::tid_t tid)
     : NativeThreadProtocol(process, tid), m_state(StateType::eStateInvalid),
       m_stop_info(),
       m_reg_context_up(
           NativeRegisterContextLinux::CreateHostNativeRegisterContextLinux(
               process.GetArchitecture(), *this)),
       m_stop_description() {}

 std::string NativeThreadLinux::GetName() {
   NativeProcessLinux &process = GetProcess();

   auto BufferOrError = getProcFile(process.GetID(), GetID(), "comm");
   if (!BufferOrError)
     return "";
   return BufferOrError.get()->getBuffer().rtrim('\n');
 }

 lldb::StateType NativeThreadLinux::GetState() { return m_state; }

 bool NativeThreadLinux::GetStopReason(ThreadStopInfo &stop_info,
                                       std::string &description) {
   Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));

   description.clear();

   switch (m_state) {
   case eStateStopped:
   case eStateCrashed:
   case eStateExited:
   case eStateSuspended:
   case eStateUnloaded:
     if (log)
       LogThreadStopInfo(*log, m_stop_info, "m_stop_info in thread:");
     stop_info = m_stop_info;
     description = m_stop_description;
     if (log)
       LogThreadStopInfo(*log, stop_info, "returned stop_info:");

     return true;

   case eStateInvalid:
   case eStateConnected:
   case eStateAttaching:
   case eStateLaunching:
   case eStateRunning:
   case eStateStepping:
   case eStateDetached:
     if (log) {
       log->Printf("NativeThreadLinux::%s tid %" PRIu64
                   " in state %s cannot answer stop reason",
                   __FUNCTION__, GetID(), StateAsCString(m_state));
     }
     return false;
   }
   llvm_unreachable("unhandled StateType!");
 }

 Status NativeThreadLinux::SetWatchpoint(lldb::addr_t addr, size_t size,
                                         uint32_t watch_flags, bool hardware) {
   if (!hardware)
     return Status("not implemented");
   if (m_state == eStateLaunching)
     return Status();
   Status error = RemoveWatchpoint(addr);
   if (error.Fail())
     return error;
   uint32_t wp_index =
       m_reg_context_up->SetHardwareWatchpoint(addr, size, watch_flags);
   if (wp_index == LLDB_INVALID_INDEX32)
     return Status("Setting hardware watchpoint failed.");
   m_watchpoint_index_map.insert({addr, wp_index});
   return Status();
 }

 Status NativeThreadLinux::RemoveWatchpoint(lldb::addr_t addr) {
   auto wp = m_watchpoint_index_map.find(addr);
   if (wp == m_watchpoint_index_map.end())
     return Status();
   uint32_t wp_index = wp->second;
   m_watchpoint_index_map.erase(wp);
   if (m_reg_context_up->ClearHardwareWatchpoint(wp_index))
     return Status();
   return Status("Clearing hardware watchpoint failed.");
 }

 Status NativeThreadLinux::SetHardwareBreakpoint(lldb::addr_t addr,
                                                 size_t size) {
   if (m_state == eStateLaunching)
     return Status();

   Status error = RemoveHardwareBreakpoint(addr);
   if (error.Fail())
     return error;

   uint32_t bp_index = m_reg_context_up->SetHardwareBreakpoint(addr, size);

   if (bp_index == LLDB_INVALID_INDEX32)
     return Status("Setting hardware breakpoint failed.");

   m_hw_break_index_map.insert({addr, bp_index});
   return Status();
 }

 Status NativeThreadLinux::RemoveHardwareBreakpoint(lldb::addr_t addr) {
   auto bp = m_hw_break_index_map.find(addr);
   if (bp == m_hw_break_index_map.end())
     return Status();

   uint32_t bp_index = bp->second;
   if (m_reg_context_up->ClearHardwareBreakpoint(bp_index)) {
     m_hw_break_index_map.erase(bp);
     return Status();
   }

   return Status("Clearing hardware breakpoint failed.");
 }

 Status NativeThreadLinux::Resume(uint32_t signo) {
   const StateType new_state = StateType::eStateRunning;
   MaybeLogStateChange(new_state);
   m_state = new_state;

   m_stop_info.reason = StopReason::eStopReasonNone;
   m_stop_description.clear();

   // If watchpoints have been set, but none on this thread, then this is a new
   // thread. So set all existing watchpoints.
   if (m_watchpoint_index_map.empty()) {
     NativeProcessLinux &process = GetProcess();

     const auto &watchpoint_map = process.GetWatchpointMap();
     m_reg_context_up->ClearAllHardwareWatchpoints();
     for (const auto &pair : watchpoint_map) {
       const auto &wp = pair.second;
       SetWatchpoint(wp.m_addr, wp.m_size, wp.m_watch_flags, wp.m_hardware);
     }
   }

   // Set all active hardware breakpoint on all threads.
   if (m_hw_break_index_map.empty()) {
     NativeProcessLinux &process = GetProcess();

     const auto &hw_breakpoint_map = process.GetHardwareBreakpointMap();
     m_reg_context_up->ClearAllHardwareBreakpoints();
     for (const auto &pair : hw_breakpoint_map) {
       const auto &bp = pair.second;
       SetHardwareBreakpoint(bp.m_addr, bp.m_size);
     }
   }

   intptr_t data = 0;

   if (signo != LLDB_INVALID_SIGNAL_NUMBER)
     data = signo;

   return NativeProcessLinux::PtraceWrapper(PTRACE_CONT, GetID(), nullptr,
                                            reinterpret_cast<void *>(data));
 }

 Status NativeThreadLinux::SingleStep(uint32_t signo) {
   const StateType new_state = StateType::eStateStepping;
   MaybeLogStateChange(new_state);
   m_state = new_state;
   m_stop_info.reason = StopReason::eStopReasonNone;

   if(!m_step_workaround) {
     // If we already hava a workaround inplace, don't reset it. Otherwise, the
     // destructor of the existing instance will run after the new instance has
     // fetched the cpu mask, and the thread will end up with the wrong mask.
     m_step_workaround = SingleStepWorkaround::Get(m_tid);
   }

   intptr_t data = 0;
   if (signo != LLDB_INVALID_SIGNAL_NUMBER)
     data = signo;

   // If hardware single-stepping is not supported, we just do a continue. The
   // breakpoint on the next instruction has been setup in
   // NativeProcessLinux::Resume.
   return NativeProcessLinux::PtraceWrapper(
       GetProcess().SupportHardwareSingleStepping() ? PTRACE_SINGLESTEP
                                                    : PTRACE_CONT,
       m_tid, nullptr, reinterpret_cast<void *>(data));
 }

 void NativeThreadLinux::SetStoppedBySignal(uint32_t signo,
                                            const siginfo_t *info) {
   Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
   if (log)
     log->Printf("NativeThreadLinux::%s called with signal 0x%02" PRIx32,
                 __FUNCTION__, signo);

   SetStopped();

   m_stop_info.reason = StopReason::eStopReasonSignal;
   m_stop_info.details.signal.signo = signo;

   m_stop_description.clear();
   if (info) {
     switch (signo) {
     case SIGSEGV:
     case SIGBUS:
     case SIGFPE:
     case SIGILL:
       // In case of MIPS64 target, SI_KERNEL is generated for invalid 64bit
       // address.
       const auto reason =
           (info->si_signo == SIGBUS && info->si_code == SI_KERNEL)
               ? CrashReason::eInvalidAddress
               : GetCrashReason(*info);
       m_stop_description = GetCrashReasonString(reason, *info);
       break;
     }
   }
 }

 bool NativeThreadLinux::IsStopped(int *signo) {
   if (!StateIsStoppedState(m_state, false))
     return false;

   // If we are stopped by a signal, return the signo.
   if (signo && m_state == StateType::eStateStopped &&
       m_stop_info.reason == StopReason::eStopReasonSignal) {
     *signo = m_stop_info.details.signal.signo;
   }

   // Regardless, we are stopped.
   return true;
 }

 void NativeThreadLinux::SetStopped() {
   if (m_state == StateType::eStateStepping)
     m_step_workaround.reset();

   const StateType new_state = StateType::eStateStopped;
   MaybeLogStateChange(new_state);
   m_state = new_state;
   m_stop_description.clear();
 }

 void NativeThreadLinux::SetStoppedByExec() {
   Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
   if (log)
     log->Printf("NativeThreadLinux::%s()", __FUNCTION__);

   SetStopped();

   m_stop_info.reason = StopReason::eStopReasonExec;
   m_stop_info.details.signal.signo = SIGSTOP;
 }

 void NativeThreadLinux::SetStoppedByBreakpoint() {
   SetStopped();

   m_stop_info.reason = StopReason::eStopReasonBreakpoint;
   m_stop_info.details.signal.signo = SIGTRAP;
   m_stop_description.clear();
 }

 void NativeThreadLinux::SetStoppedByWatchpoint(uint32_t wp_index) {
   SetStopped();

   lldbassert(wp_index != LLDB_INVALID_INDEX32 && "wp_index cannot be invalid");

   std::ostringstream ostr;
   ostr << m_reg_context_up->GetWatchpointAddress(wp_index) << " ";
   ostr << wp_index;

   /*
    * MIPS: Last 3bits of the watchpoint address are masked by the kernel. For
    * example:
    * 'n' is at 0x120010d00 and 'm' is 0x120010d04. When a watchpoint is set at
    * 'm', then
    * watch exception is generated even when 'n' is read/written. To handle this
    * case,
    * find the base address of the load/store instruction and append it in the
    * stop-info
    * packet.
   */
   ostr << " " << m_reg_context_up->GetWatchpointHitAddress(wp_index);

   m_stop_description = ostr.str();

   m_stop_info.reason = StopReason::eStopReasonWatchpoint;
   m_stop_info.details.signal.signo = SIGTRAP;
 }

 bool NativeThreadLinux::IsStoppedAtBreakpoint() {
   return GetState() == StateType::eStateStopped &&
          m_stop_info.reason == StopReason::eStopReasonBreakpoint;
 }

 bool NativeThreadLinux::IsStoppedAtWatchpoint() {
   return GetState() == StateType::eStateStopped &&
          m_stop_info.reason == StopReason::eStopReasonWatchpoint;
 }

 void NativeThreadLinux::SetStoppedByTrace() {
   SetStopped();

   m_stop_info.reason = StopReason::eStopReasonTrace;
   m_stop_info.details.signal.signo = SIGTRAP;
 }

 void NativeThreadLinux::SetStoppedWithNoReason() {
   SetStopped();

   m_stop_info.reason = StopReason::eStopReasonNone;
   m_stop_info.details.signal.signo = 0;
 }

 void NativeThreadLinux::SetExited() {
   const StateType new_state = StateType::eStateExited;
   MaybeLogStateChange(new_state);
   m_state = new_state;

   m_stop_info.reason = StopReason::eStopReasonThreadExiting;
 }

 Status NativeThreadLinux::RequestStop() {
   Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));

   NativeProcessLinux &process = GetProcess();

   lldb::pid_t pid = process.GetID();
   lldb::tid_t tid = GetID();

   if (log)
     log->Printf("NativeThreadLinux::%s requesting thread stop(pid: %" PRIu64
                 ", tid: %" PRIu64 ")",
                 __FUNCTION__, pid, tid);

   Status err;
   errno = 0;
   if (::tgkill(pid, tid, SIGSTOP) != 0) {
     err.SetErrorToErrno();
     if (log)
       log->Printf("NativeThreadLinux::%s tgkill(%" PRIu64 ", %" PRIu64
                   ", SIGSTOP) failed: %s",
                   __FUNCTION__, pid, tid, err.AsCString());
   }

   return err;
 }

 void NativeThreadLinux::MaybeLogStateChange(lldb::StateType new_state) {
   Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
   // If we're not logging, we're done.
   if (!log)
     return;

   // If this is a state change to the same state, we're done.
   lldb::StateType old_state = m_state;
   if (new_state == old_state)
     return;

   LLDB_LOG(log, "pid={0}, tid={1}: changing from state {2} to {3}",
            m_process.GetID(), GetID(), old_state, new_state);
 }

 NativeProcessLinux &NativeThreadLinux::GetProcess() {
   return static_cast<NativeProcessLinux &>(m_process);
 }
	//===-- NativeThreadLinux.cpp --------------------------------- -- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "NativeThreadLinux.h"

	#include <signal.h>
	#include <sstream>

	#include "NativeProcessLinux.h"
	#include "NativeRegisterContextLinux.h"
	#include "SingleStepCheck.h"

	#include "lldb/Core/State.h"
	#include "lldb/Host/HostNativeThread.h"
	#include "lldb/Host/linux/Ptrace.h"
	#include "lldb/Host/linux/Support.h"
	#include "lldb/Utility/LLDBAssert.h"
	#include "lldb/Utility/Log.h"
	#include "lldb/lldb-enumerations.h"

	#include "llvm/ADT/SmallString.h"

	#include "Plugins/Process/POSIX/CrashReason.h"

	#include <sys/syscall.h>
	// Try to define a macro to encapsulate the tgkill syscall
	#define tgkill(pid, tid, sig) \
	syscall(__NR_tgkill, static_cast<::pid_t>(pid), static_cast<::pid_t>(tid), \
	sig)

	using namespace lldb;
	using namespace lldb_private;
	using namespace lldb_private::process_linux;

	namespace {
	void LogThreadStopInfo(Log &log, const ThreadStopInfo &stop_info,
	const char *const header) {
	switch (stop_info.reason) {
	case eStopReasonNone:
	log.Printf("%s: %s no stop reason", __FUNCTION__, header);
	return;
	case eStopReasonTrace:
	log.Printf("%s: %s trace, stopping signal 0x%" PRIx32, __FUNCTION__, header,
	stop_info.details.signal.signo);
	return;
	case eStopReasonBreakpoint:
	log.Printf("%s: %s breakpoint, stopping signal 0x%" PRIx32, __FUNCTION__,
	header, stop_info.details.signal.signo);
	return;
	case eStopReasonWatchpoint:
	log.Printf("%s: %s watchpoint, stopping signal 0x%" PRIx32, __FUNCTION__,
	header, stop_info.details.signal.signo);
	return;
	case eStopReasonSignal:
	log.Printf("%s: %s signal 0x%02" PRIx32, __FUNCTION__, header,
	stop_info.details.signal.signo);
	return;
	case eStopReasonException:
	log.Printf("%s: %s exception type 0x%02" PRIx64, __FUNCTION__, header,
	stop_info.details.exception.type);
	return;
	case eStopReasonExec:
	log.Printf("%s: %s exec, stopping signal 0x%" PRIx32, __FUNCTION__, header,
	stop_info.details.signal.signo);
	return;
	case eStopReasonPlanComplete:
	log.Printf("%s: %s plan complete", __FUNCTION__, header);
	return;
	case eStopReasonThreadExiting:
	log.Printf("%s: %s thread exiting", __FUNCTION__, header);
	return;
	case eStopReasonInstrumentation:
	log.Printf("%s: %s instrumentation", __FUNCTION__, header);
	return;
	default:
	log.Printf("%s: %s invalid stop reason %" PRIu32, __FUNCTION__, header,
	static_cast<uint32_t>(stop_info.reason));
	}
	}
	}

	NativeThreadLinux::NativeThreadLinux(NativeProcessLinux &process,
	lldb::tid_t tid)
	: NativeThreadProtocol(process, tid), m_state(StateType::eStateInvalid),
	m_stop_info(),
	m_reg_context_up(
	NativeRegisterContextLinux::CreateHostNativeRegisterContextLinux(
	process.GetArchitecture(), *this)),
	m_stop_description() {}

	std::string NativeThreadLinux::GetName() {
	NativeProcessLinux &process = GetProcess();

	auto BufferOrError = getProcFile(process.GetID(), GetID(), "comm");
	if (!BufferOrError)
	return "";
	return BufferOrError.get()->getBuffer().rtrim('\n');
	}

	lldb::StateType NativeThreadLinux::GetState() { return m_state; }

	bool NativeThreadLinux::GetStopReason(ThreadStopInfo &stop_info,
	std::string &description) {
	Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));

	description.clear();

	switch (m_state) {
	case eStateStopped:
	case eStateCrashed:
	case eStateExited:
	case eStateSuspended:
	case eStateUnloaded:
	if (log)
	LogThreadStopInfo(*log, m_stop_info, "m_stop_info in thread:");
	stop_info = m_stop_info;
	description = m_stop_description;
	if (log)
	LogThreadStopInfo(*log, stop_info, "returned stop_info:");

	return true;

	case eStateInvalid:
	case eStateConnected:
	case eStateAttaching:
	case eStateLaunching:
	case eStateRunning:
	case eStateStepping:
	case eStateDetached:
	if (log) {
	log->Printf("NativeThreadLinux::%s tid %" PRIu64
	" in state %s cannot answer stop reason",
	__FUNCTION__, GetID(), StateAsCString(m_state));
	}
	return false;
	}
	llvm_unreachable("unhandled StateType!");
	}

	Status NativeThreadLinux::SetWatchpoint(lldb::addr_t addr, size_t size,
	uint32_t watch_flags, bool hardware) {
	if (!hardware)
	return Status("not implemented");
	if (m_state == eStateLaunching)
	return Status();
	Status error = RemoveWatchpoint(addr);
	if (error.Fail())
	return error;
	uint32_t wp_index =
	m_reg_context_up->SetHardwareWatchpoint(addr, size, watch_flags);
	if (wp_index == LLDB_INVALID_INDEX32)
	return Status("Setting hardware watchpoint failed.");
	m_watchpoint_index_map.insert({addr, wp_index});
	return Status();
	}

	Status NativeThreadLinux::RemoveWatchpoint(lldb::addr_t addr) {
	auto wp = m_watchpoint_index_map.find(addr);
	if (wp == m_watchpoint_index_map.end())
	return Status();
	uint32_t wp_index = wp->second;
	m_watchpoint_index_map.erase(wp);
	if (m_reg_context_up->ClearHardwareWatchpoint(wp_index))
	return Status();
	return Status("Clearing hardware watchpoint failed.");
	}

	Status NativeThreadLinux::SetHardwareBreakpoint(lldb::addr_t addr,
	size_t size) {
	if (m_state == eStateLaunching)
	return Status();

	Status error = RemoveHardwareBreakpoint(addr);
	if (error.Fail())
	return error;

	uint32_t bp_index = m_reg_context_up->SetHardwareBreakpoint(addr, size);

	if (bp_index == LLDB_INVALID_INDEX32)
	return Status("Setting hardware breakpoint failed.");

	m_hw_break_index_map.insert({addr, bp_index});
	return Status();
	}

	Status NativeThreadLinux::RemoveHardwareBreakpoint(lldb::addr_t addr) {
	auto bp = m_hw_break_index_map.find(addr);
	if (bp == m_hw_break_index_map.end())
	return Status();

	uint32_t bp_index = bp->second;
	if (m_reg_context_up->ClearHardwareBreakpoint(bp_index)) {
	m_hw_break_index_map.erase(bp);
	return Status();
	}

	return Status("Clearing hardware breakpoint failed.");
	}

	Status NativeThreadLinux::Resume(uint32_t signo) {
	const StateType new_state = StateType::eStateRunning;
	MaybeLogStateChange(new_state);
	m_state = new_state;

	m_stop_info.reason = StopReason::eStopReasonNone;
	m_stop_description.clear();

	// If watchpoints have been set, but none on this thread, then this is a new
	// thread. So set all existing watchpoints.
	if (m_watchpoint_index_map.empty()) {
	NativeProcessLinux &process = GetProcess();

	const auto &watchpoint_map = process.GetWatchpointMap();
	m_reg_context_up->ClearAllHardwareWatchpoints();
	for (const auto &pair : watchpoint_map) {
	const auto &wp = pair.second;
	SetWatchpoint(wp.m_addr, wp.m_size, wp.m_watch_flags, wp.m_hardware);
	}
	}

	// Set all active hardware breakpoint on all threads.
	if (m_hw_break_index_map.empty()) {
	NativeProcessLinux &process = GetProcess();

	const auto &hw_breakpoint_map = process.GetHardwareBreakpointMap();
	m_reg_context_up->ClearAllHardwareBreakpoints();
	for (const auto &pair : hw_breakpoint_map) {
	const auto &bp = pair.second;
	SetHardwareBreakpoint(bp.m_addr, bp.m_size);
	}
	}

	intptr_t data = 0;

	if (signo != LLDB_INVALID_SIGNAL_NUMBER)
	data = signo;

	return NativeProcessLinux::PtraceWrapper(PTRACE_CONT, GetID(), nullptr,
	reinterpret_cast<void *>(data));
	}

	Status NativeThreadLinux::SingleStep(uint32_t signo) {
	const StateType new_state = StateType::eStateStepping;
	MaybeLogStateChange(new_state);
	m_state = new_state;
	m_stop_info.reason = StopReason::eStopReasonNone;

	if(!m_step_workaround) {
	// If we already hava a workaround inplace, don't reset it. Otherwise, the
	// destructor of the existing instance will run after the new instance has
	// fetched the cpu mask, and the thread will end up with the wrong mask.
	m_step_workaround = SingleStepWorkaround::Get(m_tid);
	}

	intptr_t data = 0;
	if (signo != LLDB_INVALID_SIGNAL_NUMBER)
	data = signo;

	// If hardware single-stepping is not supported, we just do a continue. The
	// breakpoint on the next instruction has been setup in
	// NativeProcessLinux::Resume.
	return NativeProcessLinux::PtraceWrapper(
	GetProcess().SupportHardwareSingleStepping() ? PTRACE_SINGLESTEP
	: PTRACE_CONT,
	m_tid, nullptr, reinterpret_cast<void *>(data));
	}

	void NativeThreadLinux::SetStoppedBySignal(uint32_t signo,
	const siginfo_t *info) {
	Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
	if (log)
	log->Printf("NativeThreadLinux::%s called with signal 0x%02" PRIx32,
	__FUNCTION__, signo);

	SetStopped();

	m_stop_info.reason = StopReason::eStopReasonSignal;
	m_stop_info.details.signal.signo = signo;

	m_stop_description.clear();
	if (info) {
	switch (signo) {
	case SIGSEGV:
	case SIGBUS:
	case SIGFPE:
	case SIGILL:
	// In case of MIPS64 target, SI_KERNEL is generated for invalid 64bit
	// address.
	const auto reason =
	(info->si_signo == SIGBUS && info->si_code == SI_KERNEL)
	? CrashReason::eInvalidAddress
	: GetCrashReason(*info);
	m_stop_description = GetCrashReasonString(reason, *info);
	break;
	}
	}
	}

	bool NativeThreadLinux::IsStopped(int *signo) {
	if (!StateIsStoppedState(m_state, false))
	return false;

	// If we are stopped by a signal, return the signo.
	if (signo && m_state == StateType::eStateStopped &&
	m_stop_info.reason == StopReason::eStopReasonSignal) {
	*signo = m_stop_info.details.signal.signo;
	}

	// Regardless, we are stopped.
	return true;
	}

	void NativeThreadLinux::SetStopped() {
	if (m_state == StateType::eStateStepping)
	m_step_workaround.reset();

	const StateType new_state = StateType::eStateStopped;
	MaybeLogStateChange(new_state);
	m_state = new_state;
	m_stop_description.clear();
	}

	void NativeThreadLinux::SetStoppedByExec() {
	Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
	if (log)
	log->Printf("NativeThreadLinux::%s()", __FUNCTION__);

	SetStopped();

	m_stop_info.reason = StopReason::eStopReasonExec;
	m_stop_info.details.signal.signo = SIGSTOP;
	}

	void NativeThreadLinux::SetStoppedByBreakpoint() {
	SetStopped();

	m_stop_info.reason = StopReason::eStopReasonBreakpoint;
	m_stop_info.details.signal.signo = SIGTRAP;
	m_stop_description.clear();
	}

	void NativeThreadLinux::SetStoppedByWatchpoint(uint32_t wp_index) {
	SetStopped();

	lldbassert(wp_index != LLDB_INVALID_INDEX32 && "wp_index cannot be invalid");

	std::ostringstream ostr;
	ostr << m_reg_context_up->GetWatchpointAddress(wp_index) << " ";
	ostr << wp_index;

	/*
	* MIPS: Last 3bits of the watchpoint address are masked by the kernel. For
	* example:
	* 'n' is at 0x120010d00 and 'm' is 0x120010d04. When a watchpoint is set at
	* 'm', then
	* watch exception is generated even when 'n' is read/written. To handle this
	* case,
	* find the base address of the load/store instruction and append it in the
	* stop-info
	* packet.
	*/
	ostr << " " << m_reg_context_up->GetWatchpointHitAddress(wp_index);

	m_stop_description = ostr.str();

	m_stop_info.reason = StopReason::eStopReasonWatchpoint;
	m_stop_info.details.signal.signo = SIGTRAP;
	}

	bool NativeThreadLinux::IsStoppedAtBreakpoint() {
	return GetState() == StateType::eStateStopped &&
	m_stop_info.reason == StopReason::eStopReasonBreakpoint;
	}

	bool NativeThreadLinux::IsStoppedAtWatchpoint() {
	return GetState() == StateType::eStateStopped &&
	m_stop_info.reason == StopReason::eStopReasonWatchpoint;
	}

	void NativeThreadLinux::SetStoppedByTrace() {
	SetStopped();

	m_stop_info.reason = StopReason::eStopReasonTrace;
	m_stop_info.details.signal.signo = SIGTRAP;
	}

	void NativeThreadLinux::SetStoppedWithNoReason() {
	SetStopped();

	m_stop_info.reason = StopReason::eStopReasonNone;
	m_stop_info.details.signal.signo = 0;
	}

	void NativeThreadLinux::SetExited() {
	const StateType new_state = StateType::eStateExited;
	MaybeLogStateChange(new_state);
	m_state = new_state;

	m_stop_info.reason = StopReason::eStopReasonThreadExiting;
	}

	Status NativeThreadLinux::RequestStop() {
	Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));

	NativeProcessLinux &process = GetProcess();

	lldb::pid_t pid = process.GetID();
	lldb::tid_t tid = GetID();

	if (log)
	log->Printf("NativeThreadLinux::%s requesting thread stop(pid: %" PRIu64
	", tid: %" PRIu64 ")",
	__FUNCTION__, pid, tid);

	Status err;
	errno = 0;
	if (::tgkill(pid, tid, SIGSTOP) != 0) {
	err.SetErrorToErrno();
	if (log)
	log->Printf("NativeThreadLinux::%s tgkill(%" PRIu64 ", %" PRIu64
	", SIGSTOP) failed: %s",
	__FUNCTION__, pid, tid, err.AsCString());
	}

	return err;
	}

	void NativeThreadLinux::MaybeLogStateChange(lldb::StateType new_state) {
	Log *log(GetLogIfAllCategoriesSet(LIBLLDB_LOG_THREAD));
	// If we're not logging, we're done.
	if (!log)
	return;

	// If this is a state change to the same state, we're done.
	lldb::StateType old_state = m_state;
	if (new_state == old_state)
	return;

	LLDB_LOG(log, "pid={0}, tid={1}: changing from state {2} to {3}",
	m_process.GetID(), GetID(), old_state, new_state);
	}

	NativeProcessLinux &NativeThreadLinux::GetProcess() {
	return static_cast<NativeProcessLinux &>(m_process);
	}