src/third_party/llvm-project/lldb/source/Target/ThreadPlanStepInRange.cpp - cobalt - Git at Google

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

 // C Includes
 // C++ Includes
 // Other libraries and framework includes
 // Project includes
 #include "lldb/Target/ThreadPlanStepInRange.h"
 #include "lldb/Core/Architecture.h"
 #include "lldb/Core/Module.h"
 #include "lldb/Symbol/Function.h"
 #include "lldb/Symbol/Symbol.h"
 #include "lldb/Target/Process.h"
 #include "lldb/Target/RegisterContext.h"
 #include "lldb/Target/SectionLoadList.h"
 #include "lldb/Target/Target.h"
 #include "lldb/Target/Thread.h"
 #include "lldb/Target/ThreadPlanStepOut.h"
 #include "lldb/Target/ThreadPlanStepThrough.h"
 #include "lldb/Utility/Log.h"
 #include "lldb/Utility/RegularExpression.h"
 #include "lldb/Utility/Stream.h"

 using namespace lldb;
 using namespace lldb_private;

 uint32_t ThreadPlanStepInRange::s_default_flag_values =
     ThreadPlanShouldStopHere::eStepInAvoidNoDebug;

 //----------------------------------------------------------------------
 // ThreadPlanStepInRange: Step through a stack range, either stepping over or
 // into based on the value of \a type.
 //----------------------------------------------------------------------

 ThreadPlanStepInRange::ThreadPlanStepInRange(
     Thread &thread, const AddressRange &range,
     const SymbolContext &addr_context, lldb::RunMode stop_others,
     LazyBool step_in_avoids_code_without_debug_info,
     LazyBool step_out_avoids_code_without_debug_info)
     : ThreadPlanStepRange(ThreadPlan::eKindStepInRange,
                           "Step Range stepping in", thread, range, addr_context,
                           stop_others),
       ThreadPlanShouldStopHere(this), m_step_past_prologue(true),
       m_virtual_step(false) {
   SetCallbacks();
   SetFlagsToDefault();
   SetupAvoidNoDebug(step_in_avoids_code_without_debug_info,
                     step_out_avoids_code_without_debug_info);
 }

 ThreadPlanStepInRange::ThreadPlanStepInRange(
     Thread &thread, const AddressRange &range,
     const SymbolContext &addr_context, const char *step_into_target,
     lldb::RunMode stop_others, LazyBool step_in_avoids_code_without_debug_info,
     LazyBool step_out_avoids_code_without_debug_info)
     : ThreadPlanStepRange(ThreadPlan::eKindStepInRange,
                           "Step Range stepping in", thread, range, addr_context,
                           stop_others),
       ThreadPlanShouldStopHere(this), m_step_past_prologue(true),
       m_virtual_step(false), m_step_into_target(step_into_target) {
   SetCallbacks();
   SetFlagsToDefault();
   SetupAvoidNoDebug(step_in_avoids_code_without_debug_info,
                     step_out_avoids_code_without_debug_info);
 }

 ThreadPlanStepInRange::~ThreadPlanStepInRange() = default;

 void ThreadPlanStepInRange::SetupAvoidNoDebug(
     LazyBool step_in_avoids_code_without_debug_info,
     LazyBool step_out_avoids_code_without_debug_info) {
   bool avoid_nodebug = true;

   switch (step_in_avoids_code_without_debug_info) {
   case eLazyBoolYes:
     avoid_nodebug = true;
     break;
   case eLazyBoolNo:
     avoid_nodebug = false;
     break;
   case eLazyBoolCalculate:
     avoid_nodebug = m_thread.GetStepInAvoidsNoDebug();
     break;
   }
   if (avoid_nodebug)
     GetFlags().Set(ThreadPlanShouldStopHere::eStepInAvoidNoDebug);
   else
     GetFlags().Clear(ThreadPlanShouldStopHere::eStepInAvoidNoDebug);

   switch (step_out_avoids_code_without_debug_info) {
   case eLazyBoolYes:
     avoid_nodebug = true;
     break;
   case eLazyBoolNo:
     avoid_nodebug = false;
     break;
   case eLazyBoolCalculate:
     avoid_nodebug = m_thread.GetStepOutAvoidsNoDebug();
     break;
   }
   if (avoid_nodebug)
     GetFlags().Set(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug);
   else
     GetFlags().Clear(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug);
 }

 void ThreadPlanStepInRange::GetDescription(Stream *s,
                                            lldb::DescriptionLevel level) {
   if (level == lldb::eDescriptionLevelBrief) {
     s->Printf("step in");
     return;
   }

   s->Printf("Stepping in");
   bool printed_line_info = false;
   if (m_addr_context.line_entry.IsValid()) {
     s->Printf(" through line ");
     m_addr_context.line_entry.DumpStopContext(s, false);
     printed_line_info = true;
   }

   const char *step_into_target = m_step_into_target.AsCString();
   if (step_into_target && step_into_target[0] != '\0')
     s->Printf(" targeting %s", m_step_into_target.AsCString());

   if (!printed_line_info || level == eDescriptionLevelVerbose) {
     s->Printf(" using ranges:");
     DumpRanges(s);
   }

   s->PutChar('.');
 }

 bool ThreadPlanStepInRange::ShouldStop(Event *event_ptr) {
   Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));

   if (log) {
     StreamString s;
     s.Address(
         m_thread.GetRegisterContext()->GetPC(),
         m_thread.CalculateTarget()->GetArchitecture().GetAddressByteSize());
     log->Printf("ThreadPlanStepInRange reached %s.", s.GetData());
   }

   if (IsPlanComplete())
     return true;

   m_no_more_plans = false;
   if (m_sub_plan_sp && m_sub_plan_sp->IsPlanComplete()) {
     if (!m_sub_plan_sp->PlanSucceeded()) {
       SetPlanComplete();
       m_no_more_plans = true;
       return true;
     } else
       m_sub_plan_sp.reset();
   }

   if (m_virtual_step) {
     // If we've just completed a virtual step, all we need to do is check for a
     // ShouldStopHere plan, and otherwise we're done.
     // FIXME - This can be both a step in and a step out.  Probably should
     // record which in the m_virtual_step.
     m_sub_plan_sp = CheckShouldStopHereAndQueueStepOut(eFrameCompareYounger);
   } else {
     // Stepping through should be done running other threads in general, since
     // we're setting a breakpoint and continuing.  So only stop others if we
     // are explicitly told to do so.

     bool stop_others = (m_stop_others == lldb::eOnlyThisThread);

     FrameComparison frame_order = CompareCurrentFrameToStartFrame();

     if (frame_order == eFrameCompareOlder ||
         frame_order == eFrameCompareSameParent) {
       // If we're in an older frame then we should stop.
       //
       // A caveat to this is if we think the frame is older but we're actually
       // in a trampoline.
       // I'm going to make the assumption that you wouldn't RETURN to a
       // trampoline.  So if we are in a trampoline we think the frame is older
       // because the trampoline confused the backtracer.
       m_sub_plan_sp = m_thread.QueueThreadPlanForStepThrough(m_stack_id, false,
                                                              stop_others);
       if (!m_sub_plan_sp) {
         // Otherwise check the ShouldStopHere for step out:
         m_sub_plan_sp = CheckShouldStopHereAndQueueStepOut(frame_order);
         if (log) {
           if (m_sub_plan_sp)
             log->Printf("ShouldStopHere found plan to step out of this frame.");
           else
             log->Printf("ShouldStopHere no plan to step out of this frame.");
         }
       } else if (log) {
         log->Printf(
             "Thought I stepped out, but in fact arrived at a trampoline.");
       }
     } else if (frame_order == eFrameCompareEqual && InSymbol()) {
       // If we are not in a place we should step through, we're done. One
       // tricky bit here is that some stubs don't push a frame, so we have to
       // check both the case of a frame that is younger, or the same as this
       // frame. However, if the frame is the same, and we are still in the
       // symbol we started in, the we don't need to do this.  This first check
       // isn't strictly necessary, but it is more efficient.

       // If we're still in the range, keep going, either by running to the next
       // branch breakpoint, or by stepping.
       if (InRange()) {
         SetNextBranchBreakpoint();
         return false;
       }

       SetPlanComplete();
       m_no_more_plans = true;
       return true;
     }

     // If we get to this point, we're not going to use a previously set "next
     // branch" breakpoint, so delete it:
     ClearNextBranchBreakpoint();

     // We may have set the plan up above in the FrameIsOlder section:

     if (!m_sub_plan_sp)
       m_sub_plan_sp = m_thread.QueueThreadPlanForStepThrough(m_stack_id, false,
                                                              stop_others);

     if (log) {
       if (m_sub_plan_sp)
         log->Printf("Found a step through plan: %s", m_sub_plan_sp->GetName());
       else
         log->Printf("No step through plan found.");
     }

     // If not, give the "should_stop" callback a chance to push a plan to get
     // us out of here. But only do that if we actually have stepped in.
     if (!m_sub_plan_sp && frame_order == eFrameCompareYounger)
       m_sub_plan_sp = CheckShouldStopHereAndQueueStepOut(frame_order);

     // If we've stepped in and we are going to stop here, check to see if we
     // were asked to run past the prologue, and if so do that.

     if (!m_sub_plan_sp && frame_order == eFrameCompareYounger &&
         m_step_past_prologue) {
       lldb::StackFrameSP curr_frame = m_thread.GetStackFrameAtIndex(0);
       if (curr_frame) {
         size_t bytes_to_skip = 0;
         lldb::addr_t curr_addr = m_thread.GetRegisterContext()->GetPC();
         Address func_start_address;

         SymbolContext sc = curr_frame->GetSymbolContext(eSymbolContextFunction |
                                                         eSymbolContextSymbol);

         if (sc.function) {
           func_start_address = sc.function->GetAddressRange().GetBaseAddress();
           if (curr_addr ==
               func_start_address.GetLoadAddress(
                   m_thread.CalculateTarget().get()))
             bytes_to_skip = sc.function->GetPrologueByteSize();
         } else if (sc.symbol) {
           func_start_address = sc.symbol->GetAddress();
           if (curr_addr ==
               func_start_address.GetLoadAddress(
                   m_thread.CalculateTarget().get()))
             bytes_to_skip = sc.symbol->GetPrologueByteSize();
         }

         if (bytes_to_skip == 0 && sc.symbol) {
           TargetSP target = m_thread.CalculateTarget();
           const Architecture *arch = target->GetArchitecturePlugin();
           if (arch) {
             Address curr_sec_addr;
             target->GetSectionLoadList().ResolveLoadAddress(curr_addr,
                                                             curr_sec_addr);
             bytes_to_skip = arch->GetBytesToSkip(*sc.symbol, curr_sec_addr);
           }
         }

         if (bytes_to_skip != 0) {
           func_start_address.Slide(bytes_to_skip);
           log = lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP);
           if (log)
             log->Printf("Pushing past prologue ");

           m_sub_plan_sp = m_thread.QueueThreadPlanForRunToAddress(
               false, func_start_address, true);
         }
       }
     }
   }

   if (!m_sub_plan_sp) {
     m_no_more_plans = true;
     SetPlanComplete();
     return true;
   } else {
     m_no_more_plans = false;
     m_sub_plan_sp->SetPrivate(true);
     return false;
   }
 }

 void ThreadPlanStepInRange::SetAvoidRegexp(const char *name) {
   auto name_ref = llvm::StringRef::withNullAsEmpty(name);
   if (!m_avoid_regexp_ap)
     m_avoid_regexp_ap.reset(new RegularExpression(name_ref));

   m_avoid_regexp_ap->Compile(name_ref);
 }

 void ThreadPlanStepInRange::SetDefaultFlagValue(uint32_t new_value) {
   // TODO: Should we test this for sanity?
   ThreadPlanStepInRange::s_default_flag_values = new_value;
 }

 bool ThreadPlanStepInRange::FrameMatchesAvoidCriteria() {
   StackFrame *frame = GetThread().GetStackFrameAtIndex(0).get();

   // Check the library list first, as that's cheapest:
   bool libraries_say_avoid = false;

   FileSpecList libraries_to_avoid(GetThread().GetLibrariesToAvoid());
   size_t num_libraries = libraries_to_avoid.GetSize();
   if (num_libraries > 0) {
     SymbolContext sc(frame->GetSymbolContext(eSymbolContextModule));
     FileSpec frame_library(sc.module_sp->GetFileSpec());

     if (frame_library) {
       for (size_t i = 0; i < num_libraries; i++) {
         const FileSpec &file_spec(libraries_to_avoid.GetFileSpecAtIndex(i));
         if (FileSpec::Equal(file_spec, frame_library, false)) {
           libraries_say_avoid = true;
           break;
         }
       }
     }
   }
   if (libraries_say_avoid)
     return true;

   const RegularExpression *avoid_regexp_to_use = m_avoid_regexp_ap.get();
   if (avoid_regexp_to_use == nullptr)
     avoid_regexp_to_use = GetThread().GetSymbolsToAvoidRegexp();

   if (avoid_regexp_to_use != nullptr) {
     SymbolContext sc = frame->GetSymbolContext(
         eSymbolContextFunction | eSymbolContextBlock | eSymbolContextSymbol);
     if (sc.symbol != nullptr) {
       const char *frame_function_name =
           sc.GetFunctionName(Mangled::ePreferDemangledWithoutArguments)
               .GetCString();
       if (frame_function_name) {
         size_t num_matches = 0;
         Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
         if (log)
           num_matches = 1;

         RegularExpression::Match regex_match(num_matches);

         bool return_value =
             avoid_regexp_to_use->Execute(frame_function_name, &regex_match);
         if (return_value) {
           if (log) {
             std::string match;
             regex_match.GetMatchAtIndex(frame_function_name, 0, match);
             log->Printf("Stepping out of function \"%s\" because it matches "
                         "the avoid regexp \"%s\" - match substring: \"%s\".",
                         frame_function_name,
                         avoid_regexp_to_use->GetText().str().c_str(),
                         match.c_str());
           }
         }
         return return_value;
       }
     }
   }
   return false;
 }

 bool ThreadPlanStepInRange::DefaultShouldStopHereCallback(
     ThreadPlan *current_plan, Flags &flags, FrameComparison operation,
     void *baton) {
   bool should_stop_here = true;
   StackFrame *frame = current_plan->GetThread().GetStackFrameAtIndex(0).get();
   Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));

   // First see if the ThreadPlanShouldStopHere default implementation thinks we
   // should get out of here:
   should_stop_here = ThreadPlanShouldStopHere::DefaultShouldStopHereCallback(
       current_plan, flags, operation, baton);
   if (!should_stop_here)
     return should_stop_here;

   if (should_stop_here && current_plan->GetKind() == eKindStepInRange &&
       operation == eFrameCompareYounger) {
     ThreadPlanStepInRange *step_in_range_plan =
         static_cast<ThreadPlanStepInRange *>(current_plan);
     if (step_in_range_plan->m_step_into_target) {
       SymbolContext sc = frame->GetSymbolContext(
           eSymbolContextFunction | eSymbolContextBlock | eSymbolContextSymbol);
       if (sc.symbol != nullptr) {
         // First try an exact match, since that's cheap with ConstStrings.
         // Then do a strstr compare.
         if (step_in_range_plan->m_step_into_target == sc.GetFunctionName()) {
           should_stop_here = true;
         } else {
           const char *target_name =
               step_in_range_plan->m_step_into_target.AsCString();
           const char *function_name = sc.GetFunctionName().AsCString();

           if (function_name == nullptr)
             should_stop_here = false;
           else if (strstr(function_name, target_name) == nullptr)
             should_stop_here = false;
         }
         if (log && !should_stop_here)
           log->Printf("Stepping out of frame %s which did not match step into "
                       "target %s.",
                       sc.GetFunctionName().AsCString(),
                       step_in_range_plan->m_step_into_target.AsCString());
       }
     }

     if (should_stop_here) {
       ThreadPlanStepInRange *step_in_range_plan =
           static_cast<ThreadPlanStepInRange *>(current_plan);
       // Don't log the should_step_out here, it's easier to do it in
       // FrameMatchesAvoidCriteria.
       should_stop_here = !step_in_range_plan->FrameMatchesAvoidCriteria();
     }
   }

   return should_stop_here;
 }

 bool ThreadPlanStepInRange::DoPlanExplainsStop(Event *event_ptr) {
   // We always explain a stop.  Either we've just done a single step, in which
   // case we'll do our ordinary processing, or we stopped for some reason that
   // isn't handled by our sub-plans, in which case we want to just stop right
   // away. In general, we don't want to mark the plan as complete for
   // unexplained stops. For instance, if you step in to some code with no debug
   // info, so you step out and in the course of that hit a breakpoint, then you
   // want to stop & show the user the breakpoint, but not unship the step in
   // plan, since you still may want to complete that plan when you continue.
   // This is particularly true when doing "step in to target function."
   // stepping.
   //
   // The only variation is that if we are doing "step by running to next
   // branch" in which case if we hit our branch breakpoint we don't set the
   // plan to complete.

   bool return_value = false;

   if (m_virtual_step) {
     return_value = true;
   } else {
     StopInfoSP stop_info_sp = GetPrivateStopInfo();
     if (stop_info_sp) {
       StopReason reason = stop_info_sp->GetStopReason();

       if (reason == eStopReasonBreakpoint) {
         if (NextRangeBreakpointExplainsStop(stop_info_sp)) {
           return_value = true;
         }
       } else if (IsUsuallyUnexplainedStopReason(reason)) {
         Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
         if (log)
           log->PutCString("ThreadPlanStepInRange got asked if it explains the "
                           "stop for some reason other than step.");
         return_value = false;
       } else {
         return_value = true;
       }
     } else
       return_value = true;
   }

   return return_value;
 }

 bool ThreadPlanStepInRange::DoWillResume(lldb::StateType resume_state,
                                          bool current_plan) {
   m_virtual_step = false;
   if (resume_state == eStateStepping && current_plan) {
     // See if we are about to step over a virtual inlined call.
     bool step_without_resume = m_thread.DecrementCurrentInlinedDepth();
     if (step_without_resume) {
       Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
       if (log)
         log->Printf("ThreadPlanStepInRange::DoWillResume: returning false, "
                     "inline_depth: %d",
                     m_thread.GetCurrentInlinedDepth());
       SetStopInfo(StopInfo::CreateStopReasonToTrace(m_thread));

       // FIXME: Maybe it would be better to create a InlineStep stop reason, but
       // then
       // the whole rest of the world would have to handle that stop reason.
       m_virtual_step = true;
     }
     return !step_without_resume;
   }
   return true;
 }

 bool ThreadPlanStepInRange::IsVirtualStep() { return m_virtual_step; }
	//===-- ThreadPlanStepInRange.cpp -------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	// C Includes
	// C++ Includes
	// Other libraries and framework includes
	// Project includes
	#include "lldb/Target/ThreadPlanStepInRange.h"
	#include "lldb/Core/Architecture.h"
	#include "lldb/Core/Module.h"
	#include "lldb/Symbol/Function.h"
	#include "lldb/Symbol/Symbol.h"
	#include "lldb/Target/Process.h"
	#include "lldb/Target/RegisterContext.h"
	#include "lldb/Target/SectionLoadList.h"
	#include "lldb/Target/Target.h"
	#include "lldb/Target/Thread.h"
	#include "lldb/Target/ThreadPlanStepOut.h"
	#include "lldb/Target/ThreadPlanStepThrough.h"
	#include "lldb/Utility/Log.h"
	#include "lldb/Utility/RegularExpression.h"
	#include "lldb/Utility/Stream.h"

	using namespace lldb;
	using namespace lldb_private;

	uint32_t ThreadPlanStepInRange::s_default_flag_values =
	ThreadPlanShouldStopHere::eStepInAvoidNoDebug;

	//----------------------------------------------------------------------
	// ThreadPlanStepInRange: Step through a stack range, either stepping over or
	// into based on the value of \a type.
	//----------------------------------------------------------------------

	ThreadPlanStepInRange::ThreadPlanStepInRange(
	Thread &thread, const AddressRange &range,
	const SymbolContext &addr_context, lldb::RunMode stop_others,
	LazyBool step_in_avoids_code_without_debug_info,
	LazyBool step_out_avoids_code_without_debug_info)
	: ThreadPlanStepRange(ThreadPlan::eKindStepInRange,
	"Step Range stepping in", thread, range, addr_context,
	stop_others),
	ThreadPlanShouldStopHere(this), m_step_past_prologue(true),
	m_virtual_step(false) {
	SetCallbacks();
	SetFlagsToDefault();
	SetupAvoidNoDebug(step_in_avoids_code_without_debug_info,
	step_out_avoids_code_without_debug_info);
	}

	ThreadPlanStepInRange::ThreadPlanStepInRange(
	Thread &thread, const AddressRange &range,
	const SymbolContext &addr_context, const char *step_into_target,
	lldb::RunMode stop_others, LazyBool step_in_avoids_code_without_debug_info,
	LazyBool step_out_avoids_code_without_debug_info)
	: ThreadPlanStepRange(ThreadPlan::eKindStepInRange,
	"Step Range stepping in", thread, range, addr_context,
	stop_others),
	ThreadPlanShouldStopHere(this), m_step_past_prologue(true),
	m_virtual_step(false), m_step_into_target(step_into_target) {
	SetCallbacks();
	SetFlagsToDefault();
	SetupAvoidNoDebug(step_in_avoids_code_without_debug_info,
	step_out_avoids_code_without_debug_info);
	}

	ThreadPlanStepInRange::~ThreadPlanStepInRange() = default;

	void ThreadPlanStepInRange::SetupAvoidNoDebug(
	LazyBool step_in_avoids_code_without_debug_info,
	LazyBool step_out_avoids_code_without_debug_info) {
	bool avoid_nodebug = true;

	switch (step_in_avoids_code_without_debug_info) {
	case eLazyBoolYes:
	avoid_nodebug = true;
	break;
	case eLazyBoolNo:
	avoid_nodebug = false;
	break;
	case eLazyBoolCalculate:
	avoid_nodebug = m_thread.GetStepInAvoidsNoDebug();
	break;
	}
	if (avoid_nodebug)
	GetFlags().Set(ThreadPlanShouldStopHere::eStepInAvoidNoDebug);
	else
	GetFlags().Clear(ThreadPlanShouldStopHere::eStepInAvoidNoDebug);

	switch (step_out_avoids_code_without_debug_info) {
	case eLazyBoolYes:
	avoid_nodebug = true;
	break;
	case eLazyBoolNo:
	avoid_nodebug = false;
	break;
	case eLazyBoolCalculate:
	avoid_nodebug = m_thread.GetStepOutAvoidsNoDebug();
	break;
	}
	if (avoid_nodebug)
	GetFlags().Set(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug);
	else
	GetFlags().Clear(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug);
	}

	void ThreadPlanStepInRange::GetDescription(Stream *s,
	lldb::DescriptionLevel level) {
	if (level == lldb::eDescriptionLevelBrief) {
	s->Printf("step in");
	return;
	}

	s->Printf("Stepping in");
	bool printed_line_info = false;
	if (m_addr_context.line_entry.IsValid()) {
	s->Printf(" through line ");
	m_addr_context.line_entry.DumpStopContext(s, false);
	printed_line_info = true;
	}

	const char *step_into_target = m_step_into_target.AsCString();
	if (step_into_target && step_into_target[0] != '\0')
	s->Printf(" targeting %s", m_step_into_target.AsCString());

	if (!printed_line_info \|\| level == eDescriptionLevelVerbose) {
	s->Printf(" using ranges:");
	DumpRanges(s);
	}

	s->PutChar('.');
	}

	bool ThreadPlanStepInRange::ShouldStop(Event *event_ptr) {
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));

	if (log) {
	StreamString s;
	s.Address(
	m_thread.GetRegisterContext()->GetPC(),
	m_thread.CalculateTarget()->GetArchitecture().GetAddressByteSize());
	log->Printf("ThreadPlanStepInRange reached %s.", s.GetData());
	}

	if (IsPlanComplete())
	return true;

	m_no_more_plans = false;
	if (m_sub_plan_sp && m_sub_plan_sp->IsPlanComplete()) {
	if (!m_sub_plan_sp->PlanSucceeded()) {
	SetPlanComplete();
	m_no_more_plans = true;
	return true;
	} else
	m_sub_plan_sp.reset();
	}

	if (m_virtual_step) {
	// If we've just completed a virtual step, all we need to do is check for a
	// ShouldStopHere plan, and otherwise we're done.
	// FIXME - This can be both a step in and a step out. Probably should
	// record which in the m_virtual_step.
	m_sub_plan_sp = CheckShouldStopHereAndQueueStepOut(eFrameCompareYounger);
	} else {
	// Stepping through should be done running other threads in general, since
	// we're setting a breakpoint and continuing. So only stop others if we
	// are explicitly told to do so.

	bool stop_others = (m_stop_others == lldb::eOnlyThisThread);

	FrameComparison frame_order = CompareCurrentFrameToStartFrame();

	if (frame_order == eFrameCompareOlder \|\|
	frame_order == eFrameCompareSameParent) {
	// If we're in an older frame then we should stop.
	//
	// A caveat to this is if we think the frame is older but we're actually
	// in a trampoline.
	// I'm going to make the assumption that you wouldn't RETURN to a
	// trampoline. So if we are in a trampoline we think the frame is older
	// because the trampoline confused the backtracer.
	m_sub_plan_sp = m_thread.QueueThreadPlanForStepThrough(m_stack_id, false,
	stop_others);
	if (!m_sub_plan_sp) {
	// Otherwise check the ShouldStopHere for step out:
	m_sub_plan_sp = CheckShouldStopHereAndQueueStepOut(frame_order);
	if (log) {
	if (m_sub_plan_sp)
	log->Printf("ShouldStopHere found plan to step out of this frame.");
	else
	log->Printf("ShouldStopHere no plan to step out of this frame.");
	}
	} else if (log) {
	log->Printf(
	"Thought I stepped out, but in fact arrived at a trampoline.");
	}
	} else if (frame_order == eFrameCompareEqual && InSymbol()) {
	// If we are not in a place we should step through, we're done. One
	// tricky bit here is that some stubs don't push a frame, so we have to
	// check both the case of a frame that is younger, or the same as this
	// frame. However, if the frame is the same, and we are still in the
	// symbol we started in, the we don't need to do this. This first check
	// isn't strictly necessary, but it is more efficient.

	// If we're still in the range, keep going, either by running to the next
	// branch breakpoint, or by stepping.
	if (InRange()) {
	SetNextBranchBreakpoint();
	return false;
	}

	SetPlanComplete();
	m_no_more_plans = true;
	return true;
	}

	// If we get to this point, we're not going to use a previously set "next
	// branch" breakpoint, so delete it:
	ClearNextBranchBreakpoint();

	// We may have set the plan up above in the FrameIsOlder section:

	if (!m_sub_plan_sp)
	m_sub_plan_sp = m_thread.QueueThreadPlanForStepThrough(m_stack_id, false,
	stop_others);

	if (log) {
	if (m_sub_plan_sp)
	log->Printf("Found a step through plan: %s", m_sub_plan_sp->GetName());
	else
	log->Printf("No step through plan found.");
	}

	// If not, give the "should_stop" callback a chance to push a plan to get
	// us out of here. But only do that if we actually have stepped in.
	if (!m_sub_plan_sp && frame_order == eFrameCompareYounger)
	m_sub_plan_sp = CheckShouldStopHereAndQueueStepOut(frame_order);

	// If we've stepped in and we are going to stop here, check to see if we
	// were asked to run past the prologue, and if so do that.

	if (!m_sub_plan_sp && frame_order == eFrameCompareYounger &&
	m_step_past_prologue) {
	lldb::StackFrameSP curr_frame = m_thread.GetStackFrameAtIndex(0);
	if (curr_frame) {
	size_t bytes_to_skip = 0;
	lldb::addr_t curr_addr = m_thread.GetRegisterContext()->GetPC();
	Address func_start_address;

	SymbolContext sc = curr_frame->GetSymbolContext(eSymbolContextFunction \|
	eSymbolContextSymbol);

	if (sc.function) {
	func_start_address = sc.function->GetAddressRange().GetBaseAddress();
	if (curr_addr ==
	func_start_address.GetLoadAddress(
	m_thread.CalculateTarget().get()))
	bytes_to_skip = sc.function->GetPrologueByteSize();
	} else if (sc.symbol) {
	func_start_address = sc.symbol->GetAddress();
	if (curr_addr ==
	func_start_address.GetLoadAddress(
	m_thread.CalculateTarget().get()))
	bytes_to_skip = sc.symbol->GetPrologueByteSize();
	}

	if (bytes_to_skip == 0 && sc.symbol) {
	TargetSP target = m_thread.CalculateTarget();
	const Architecture *arch = target->GetArchitecturePlugin();
	if (arch) {
	Address curr_sec_addr;
	target->GetSectionLoadList().ResolveLoadAddress(curr_addr,
	curr_sec_addr);
	bytes_to_skip = arch->GetBytesToSkip(*sc.symbol, curr_sec_addr);
	}
	}

	if (bytes_to_skip != 0) {
	func_start_address.Slide(bytes_to_skip);
	log = lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP);
	if (log)
	log->Printf("Pushing past prologue ");

	m_sub_plan_sp = m_thread.QueueThreadPlanForRunToAddress(
	false, func_start_address, true);
	}
	}
	}
	}

	if (!m_sub_plan_sp) {
	m_no_more_plans = true;
	SetPlanComplete();
	return true;
	} else {
	m_no_more_plans = false;
	m_sub_plan_sp->SetPrivate(true);
	return false;
	}
	}

	void ThreadPlanStepInRange::SetAvoidRegexp(const char *name) {
	auto name_ref = llvm::StringRef::withNullAsEmpty(name);
	if (!m_avoid_regexp_ap)
	m_avoid_regexp_ap.reset(new RegularExpression(name_ref));

	m_avoid_regexp_ap->Compile(name_ref);
	}

	void ThreadPlanStepInRange::SetDefaultFlagValue(uint32_t new_value) {
	// TODO: Should we test this for sanity?
	ThreadPlanStepInRange::s_default_flag_values = new_value;
	}

	bool ThreadPlanStepInRange::FrameMatchesAvoidCriteria() {
	StackFrame *frame = GetThread().GetStackFrameAtIndex(0).get();

	// Check the library list first, as that's cheapest:
	bool libraries_say_avoid = false;

	FileSpecList libraries_to_avoid(GetThread().GetLibrariesToAvoid());
	size_t num_libraries = libraries_to_avoid.GetSize();
	if (num_libraries > 0) {
	SymbolContext sc(frame->GetSymbolContext(eSymbolContextModule));
	FileSpec frame_library(sc.module_sp->GetFileSpec());

	if (frame_library) {
	for (size_t i = 0; i < num_libraries; i++) {
	const FileSpec &file_spec(libraries_to_avoid.GetFileSpecAtIndex(i));
	if (FileSpec::Equal(file_spec, frame_library, false)) {
	libraries_say_avoid = true;
	break;
	}
	}
	}
	}
	if (libraries_say_avoid)
	return true;

	const RegularExpression *avoid_regexp_to_use = m_avoid_regexp_ap.get();
	if (avoid_regexp_to_use == nullptr)
	avoid_regexp_to_use = GetThread().GetSymbolsToAvoidRegexp();

	if (avoid_regexp_to_use != nullptr) {
	SymbolContext sc = frame->GetSymbolContext(
	eSymbolContextFunction \| eSymbolContextBlock \| eSymbolContextSymbol);
	if (sc.symbol != nullptr) {
	const char *frame_function_name =
	sc.GetFunctionName(Mangled::ePreferDemangledWithoutArguments)
	.GetCString();
	if (frame_function_name) {
	size_t num_matches = 0;
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
	if (log)
	num_matches = 1;

	RegularExpression::Match regex_match(num_matches);

	bool return_value =
	avoid_regexp_to_use->Execute(frame_function_name, &regex_match);
	if (return_value) {
	if (log) {
	std::string match;
	regex_match.GetMatchAtIndex(frame_function_name, 0, match);
	log->Printf("Stepping out of function \"%s\" because it matches "
	"the avoid regexp \"%s\" - match substring: \"%s\".",
	frame_function_name,
	avoid_regexp_to_use->GetText().str().c_str(),
	match.c_str());
	}
	}
	return return_value;
	}
	}
	}
	return false;
	}

	bool ThreadPlanStepInRange::DefaultShouldStopHereCallback(
	ThreadPlan *current_plan, Flags &flags, FrameComparison operation,
	void *baton) {
	bool should_stop_here = true;
	StackFrame *frame = current_plan->GetThread().GetStackFrameAtIndex(0).get();
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));

	// First see if the ThreadPlanShouldStopHere default implementation thinks we
	// should get out of here:
	should_stop_here = ThreadPlanShouldStopHere::DefaultShouldStopHereCallback(
	current_plan, flags, operation, baton);
	if (!should_stop_here)
	return should_stop_here;

	if (should_stop_here && current_plan->GetKind() == eKindStepInRange &&
	operation == eFrameCompareYounger) {
	ThreadPlanStepInRange *step_in_range_plan =
	static_cast<ThreadPlanStepInRange *>(current_plan);
	if (step_in_range_plan->m_step_into_target) {
	SymbolContext sc = frame->GetSymbolContext(
	eSymbolContextFunction \| eSymbolContextBlock \| eSymbolContextSymbol);
	if (sc.symbol != nullptr) {
	// First try an exact match, since that's cheap with ConstStrings.
	// Then do a strstr compare.
	if (step_in_range_plan->m_step_into_target == sc.GetFunctionName()) {
	should_stop_here = true;
	} else {
	const char *target_name =
	step_in_range_plan->m_step_into_target.AsCString();
	const char *function_name = sc.GetFunctionName().AsCString();

	if (function_name == nullptr)
	should_stop_here = false;
	else if (strstr(function_name, target_name) == nullptr)
	should_stop_here = false;
	}
	if (log && !should_stop_here)
	log->Printf("Stepping out of frame %s which did not match step into "
	"target %s.",
	sc.GetFunctionName().AsCString(),
	step_in_range_plan->m_step_into_target.AsCString());
	}
	}

	if (should_stop_here) {
	ThreadPlanStepInRange *step_in_range_plan =
	static_cast<ThreadPlanStepInRange *>(current_plan);
	// Don't log the should_step_out here, it's easier to do it in
	// FrameMatchesAvoidCriteria.
	should_stop_here = !step_in_range_plan->FrameMatchesAvoidCriteria();
	}
	}

	return should_stop_here;
	}

	bool ThreadPlanStepInRange::DoPlanExplainsStop(Event *event_ptr) {
	// We always explain a stop. Either we've just done a single step, in which
	// case we'll do our ordinary processing, or we stopped for some reason that
	// isn't handled by our sub-plans, in which case we want to just stop right
	// away. In general, we don't want to mark the plan as complete for
	// unexplained stops. For instance, if you step in to some code with no debug
	// info, so you step out and in the course of that hit a breakpoint, then you
	// want to stop & show the user the breakpoint, but not unship the step in
	// plan, since you still may want to complete that plan when you continue.
	// This is particularly true when doing "step in to target function."
	// stepping.
	//
	// The only variation is that if we are doing "step by running to next
	// branch" in which case if we hit our branch breakpoint we don't set the
	// plan to complete.

	bool return_value = false;

	if (m_virtual_step) {
	return_value = true;
	} else {
	StopInfoSP stop_info_sp = GetPrivateStopInfo();
	if (stop_info_sp) {
	StopReason reason = stop_info_sp->GetStopReason();

	if (reason == eStopReasonBreakpoint) {
	if (NextRangeBreakpointExplainsStop(stop_info_sp)) {
	return_value = true;
	}
	} else if (IsUsuallyUnexplainedStopReason(reason)) {
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
	if (log)
	log->PutCString("ThreadPlanStepInRange got asked if it explains the "
	"stop for some reason other than step.");
	return_value = false;
	} else {
	return_value = true;
	}
	} else
	return_value = true;
	}

	return return_value;
	}

	bool ThreadPlanStepInRange::DoWillResume(lldb::StateType resume_state,
	bool current_plan) {
	m_virtual_step = false;
	if (resume_state == eStateStepping && current_plan) {
	// See if we are about to step over a virtual inlined call.
	bool step_without_resume = m_thread.DecrementCurrentInlinedDepth();
	if (step_without_resume) {
	Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP));
	if (log)
	log->Printf("ThreadPlanStepInRange::DoWillResume: returning false, "
	"inline_depth: %d",
	m_thread.GetCurrentInlinedDepth());
	SetStopInfo(StopInfo::CreateStopReasonToTrace(m_thread));

	// FIXME: Maybe it would be better to create a InlineStep stop reason, but
	// then
	// the whole rest of the world would have to handle that stop reason.
	m_virtual_step = true;
	}
	return !step_without_resume;
	}
	return true;
	}

	bool ThreadPlanStepInRange::IsVirtualStep() { return m_virtual_step; }