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5160ce5c72e5f55c2e83ca9914cd0f02e0c5ceb3
clang-p2996/lldb/source/Target/ThreadPlanStepUntil.cpp
Greg Clayton 5160ce5c72 <rdar://problem/13521159> 
LLDB is crashing when logging is enabled from lldb-perf-clang. This has to do with the global destructor chain as the process and its threads are being torn down.

All logging channels now make one and only one instance that is kept in a global pointer which is never freed. This guarantees that logging can correctly continue as the process tears itself down.

llvm-svn: 178191
2013-03-27 23:08:40 +00:00

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//===-- ThreadPlanStepUntil.cpp ---------------------------------*- C++ -*-===//
//
// The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//
//m_should_stop
//
//===----------------------------------------------------------------------===//
#include "lldb/Target/ThreadPlanStepUntil.h"
// C Includes
// C++ Includes
// Other libraries and framework includes
// Project includes
#include "lldb/Breakpoint/Breakpoint.h"
#include "lldb/lldb-private-log.h"
#include "lldb/Core/Log.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/RegisterContext.h"
#include "lldb/Target/StopInfo.h"
#include "lldb/Target/Target.h"
using namespace lldb;
using namespace lldb_private;
//----------------------------------------------------------------------
// ThreadPlanStepUntil: Run until we reach a given line number or step out of the current frame
//----------------------------------------------------------------------
ThreadPlanStepUntil::ThreadPlanStepUntil
(
Thread &thread,
lldb::addr_t *address_list,
size_t num_addresses,
bool stop_others,
uint32_t frame_idx
) :
ThreadPlan (ThreadPlan::eKindStepUntil, "Step until", thread, eVoteNoOpinion, eVoteNoOpinion),
m_step_from_insn (LLDB_INVALID_ADDRESS),
m_return_bp_id (LLDB_INVALID_BREAK_ID),
m_return_addr (LLDB_INVALID_ADDRESS),
m_stepped_out (false),
m_should_stop (false),
m_ran_analyze (false),
m_explains_stop (false),
m_until_points (),
m_stop_others (stop_others)
{
// Stash away our "until" addresses:
TargetSP target_sp (m_thread.CalculateTarget());
StackFrameSP frame_sp (m_thread.GetStackFrameAtIndex (frame_idx));
if (frame_sp)
{
m_step_from_insn = frame_sp->GetStackID().GetPC();
lldb::user_id_t thread_id = m_thread.GetID();
// Find the return address and set a breakpoint there:
// FIXME - can we do this more securely if we know first_insn?
StackFrameSP return_frame_sp (m_thread.GetStackFrameAtIndex(frame_idx + 1));
if (return_frame_sp)
{
// TODO: add inline functionality
m_return_addr = return_frame_sp->GetStackID().GetPC();
Breakpoint *return_bp = target_sp->CreateBreakpoint (m_return_addr, true).get();
if (return_bp != NULL)
{
return_bp->SetThreadID(thread_id);
m_return_bp_id = return_bp->GetID();
return_bp->SetBreakpointKind ("until-return-backstop");
}
}
m_stack_id = m_thread.GetStackFrameAtIndex(frame_idx)->GetStackID();
// Now set breakpoints on all our return addresses:
for (int i = 0; i < num_addresses; i++)
{
Breakpoint *until_bp = target_sp->CreateBreakpoint (address_list[i], true).get();
if (until_bp != NULL)
{
until_bp->SetThreadID(thread_id);
m_until_points[address_list[i]] = until_bp->GetID();
until_bp->SetBreakpointKind("until-target");
}
else
{
m_until_points[address_list[i]] = LLDB_INVALID_BREAK_ID;
}
}
}
}
ThreadPlanStepUntil::~ThreadPlanStepUntil ()
{
Clear();
}
void
ThreadPlanStepUntil::Clear()
{
TargetSP target_sp (m_thread.CalculateTarget());
if (target_sp)
{
if (m_return_bp_id != LLDB_INVALID_BREAK_ID)
{
target_sp->RemoveBreakpointByID(m_return_bp_id);
m_return_bp_id = LLDB_INVALID_BREAK_ID;
}
until_collection::iterator pos, end = m_until_points.end();
for (pos = m_until_points.begin(); pos != end; pos++)
{
target_sp->RemoveBreakpointByID((*pos).second);
}
}
m_until_points.clear();
}
void
ThreadPlanStepUntil::GetDescription (Stream *s, lldb::DescriptionLevel level)
{
if (level == lldb::eDescriptionLevelBrief)
{
s->Printf ("step until");
if (m_stepped_out)
s->Printf (" - stepped out");
}
else
{
if (m_until_points.size() == 1)
s->Printf ("Stepping from address 0x%" PRIx64 " until we reach 0x%" PRIx64 " using breakpoint %d",
(uint64_t)m_step_from_insn,
(uint64_t) (*m_until_points.begin()).first,
(*m_until_points.begin()).second);
else
{
until_collection::iterator pos, end = m_until_points.end();
s->Printf ("Stepping from address 0x%" PRIx64 " until we reach one of:",
(uint64_t)m_step_from_insn);
for (pos = m_until_points.begin(); pos != end; pos++)
{
s->Printf ("\n\t0x%" PRIx64 " (bp: %d)", (uint64_t) (*pos).first, (*pos).second);
}
}
s->Printf(" stepped out address is 0x%" PRIx64 ".", (uint64_t) m_return_addr);
}
}
bool
ThreadPlanStepUntil::ValidatePlan (Stream *error)
{
if (m_return_bp_id == LLDB_INVALID_BREAK_ID)
return false;
else
{
until_collection::iterator pos, end = m_until_points.end();
for (pos = m_until_points.begin(); pos != end; pos++)
{
if (!LLDB_BREAK_ID_IS_VALID ((*pos).second))
return false;
}
return true;
}
}
void
ThreadPlanStepUntil::AnalyzeStop()
{
if (m_ran_analyze)
return;
StopInfoSP stop_info_sp = GetPrivateStopReason();
m_should_stop = true;
m_explains_stop = false;
if (stop_info_sp)
{
StopReason reason = stop_info_sp->GetStopReason();
switch (reason)
{
case eStopReasonBreakpoint:
{
// If this is OUR breakpoint, we're fine, otherwise we don't know why this happened...
BreakpointSiteSP this_site = m_thread.GetProcess()->GetBreakpointSiteList().FindByID (stop_info_sp->GetValue());
if (!this_site)
{
m_explains_stop = false;
return;
}
if (this_site->IsBreakpointAtThisSite (m_return_bp_id))
{
// If we are at our "step out" breakpoint, and the stack depth has shrunk, then
// this is indeed our stop.
// If the stack depth has grown, then we've hit our step out breakpoint recursively.
// If we are the only breakpoint at that location, then we do explain the stop, and
// we'll just continue.
// If there was another breakpoint here, then we don't explain the stop, but we won't
// mark ourselves Completed, because maybe that breakpoint will continue, and then
// we'll finish the "until".
bool done;
StackID cur_frame_zero_id;
if (m_stack_id < cur_frame_zero_id)
done = true;
else
done = false;
if (done)
{
m_stepped_out = true;
SetPlanComplete();
}
else
m_should_stop = false;
if (this_site->GetNumberOfOwners() == 1)
m_explains_stop = true;
else
m_explains_stop = false;
return;
}
else
{
// Check if we've hit one of our "until" breakpoints.
until_collection::iterator pos, end = m_until_points.end();
for (pos = m_until_points.begin(); pos != end; pos++)
{
if (this_site->IsBreakpointAtThisSite ((*pos).second))
{
// If we're at the right stack depth, then we're done.
bool done;
StackID frame_zero_id = m_thread.GetStackFrameAtIndex(0)->GetStackID();
if (frame_zero_id == m_stack_id)
done = true;
else if (frame_zero_id < m_stack_id)
done = false;
else
{
StackFrameSP older_frame_sp = m_thread.GetStackFrameAtIndex(1);
// But if we can't even unwind one frame we should just get out of here & stop...
if (older_frame_sp)
{
const SymbolContext &older_context
= older_frame_sp->GetSymbolContext(eSymbolContextEverything);
SymbolContext stack_context;
m_stack_id.GetSymbolContextScope()->CalculateSymbolContext(&stack_context);
if (older_context == stack_context)
done = true;
else
done = false;
}
else
done = false;
}
if (done)
SetPlanComplete();
else
m_should_stop = false;
// Otherwise we've hit this breakpoint recursively. If we're the
// only breakpoint here, then we do explain the stop, and we'll continue.
// If not then we should let higher plans handle this stop.
if (this_site->GetNumberOfOwners() == 1)
m_explains_stop = true;
else
{
m_should_stop = true;
m_explains_stop = false;
}
return;
}
}
}
// If we get here we haven't hit any of our breakpoints, so let the higher
// plans take care of the stop.
m_explains_stop = false;
return;
}
case eStopReasonWatchpoint:
case eStopReasonSignal:
case eStopReasonException:
case eStopReasonExec:
case eStopReasonThreadExiting:
m_explains_stop = false;
break;
default:
m_explains_stop = true;
break;
}
}
}
bool
ThreadPlanStepUntil::PlanExplainsStop (Event *event_ptr)
{
// We don't explain signals or breakpoints (breakpoints that handle stepping in or
// out will be handled by a child plan.
AnalyzeStop();
return m_explains_stop;
}
bool
ThreadPlanStepUntil::ShouldStop (Event *event_ptr)
{
// If we've told our self in ExplainsStop that we plan to continue, then
// do so here. Otherwise, as long as this thread has stopped for a reason,
// we will stop.
StopInfoSP stop_info_sp = GetPrivateStopReason();
if (!stop_info_sp || stop_info_sp->GetStopReason() == eStopReasonNone)
return false;
AnalyzeStop();
return m_should_stop;
}
bool
ThreadPlanStepUntil::StopOthers ()
{
return m_stop_others;
}
StateType
ThreadPlanStepUntil::GetPlanRunState ()
{
return eStateRunning;
}
bool
ThreadPlanStepUntil::WillResume (StateType resume_state, bool current_plan)
{
ThreadPlan::WillResume (resume_state, current_plan);
if (current_plan)
{
TargetSP target_sp (m_thread.CalculateTarget());
if (target_sp)
{
Breakpoint *return_bp = target_sp->GetBreakpointByID(m_return_bp_id).get();
if (return_bp != NULL)
return_bp->SetEnabled (true);
until_collection::iterator pos, end = m_until_points.end();
for (pos = m_until_points.begin(); pos != end; pos++)
{
Breakpoint *until_bp = target_sp->GetBreakpointByID((*pos).second).get();
if (until_bp != NULL)
until_bp->SetEnabled (true);
}
}
}
m_should_stop = true;
m_ran_analyze = false;
m_explains_stop = false;
return true;
}
bool
ThreadPlanStepUntil::WillStop ()
{
TargetSP target_sp (m_thread.CalculateTarget());
if (target_sp)
{
Breakpoint *return_bp = target_sp->GetBreakpointByID(m_return_bp_id).get();
if (return_bp != NULL)
return_bp->SetEnabled (false);
until_collection::iterator pos, end = m_until_points.end();
for (pos = m_until_points.begin(); pos != end; pos++)
{
Breakpoint *until_bp = target_sp->GetBreakpointByID((*pos).second).get();
if (until_bp != NULL)
until_bp->SetEnabled (false);
}
}
return true;
}
bool
ThreadPlanStepUntil::MischiefManaged ()
{
// I'm letting "PlanExplainsStop" do all the work, and just reporting that here.
bool done = false;
if (IsPlanComplete())
{
Log *log(lldb_private::GetLogIfAllCategoriesSet (LIBLLDB_LOG_STEP));
if (log)
log->Printf("Completed step until plan.");
Clear();
done = true;
}
if (done)
ThreadPlan::MischiefManaged ();
return done;
}
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