//===-- ThreadPlanStepOut.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/Target/ThreadPlanStepOut.h" #include "lldb/Breakpoint/Breakpoint.h" #include "lldb/Core/Value.h" #include "lldb/Core/ValueObjectConstResult.h" #include "lldb/Symbol/Block.h" #include "lldb/Symbol/Function.h" #include "lldb/Symbol/Symbol.h" #include "lldb/Symbol/Type.h" #include "lldb/Target/ABI.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/StopInfo.h" #include "lldb/Target/Target.h" #include "lldb/Target/ThreadPlanStepOverRange.h" #include "lldb/Target/ThreadPlanStepThrough.h" #include "lldb/Utility/Log.h" #include using namespace lldb; using namespace lldb_private; uint32_t ThreadPlanStepOut::s_default_flag_values = 0; // ThreadPlanStepOut: Step out of the current frame ThreadPlanStepOut::ThreadPlanStepOut( Thread &thread, SymbolContext *context, bool first_insn, bool stop_others, Vote stop_vote, Vote run_vote, uint32_t frame_idx, LazyBool step_out_avoids_code_without_debug_info, bool continue_to_next_branch, bool gather_return_value) : ThreadPlan(ThreadPlan::eKindStepOut, "Step out", thread, stop_vote, run_vote), ThreadPlanShouldStopHere(this), m_step_from_insn(LLDB_INVALID_ADDRESS), m_return_bp_id(LLDB_INVALID_BREAK_ID), m_return_addr(LLDB_INVALID_ADDRESS), m_stop_others(stop_others), m_immediate_step_from_function(nullptr), m_calculate_return_value(gather_return_value) { Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP)); SetFlagsToDefault(); SetupAvoidNoDebug(step_out_avoids_code_without_debug_info); m_step_from_insn = thread.GetRegisterContext()->GetPC(0); uint32_t return_frame_index = frame_idx + 1; StackFrameSP return_frame_sp(thread.GetStackFrameAtIndex(return_frame_index)); StackFrameSP immediate_return_from_sp(thread.GetStackFrameAtIndex(frame_idx)); if (!return_frame_sp || !immediate_return_from_sp) return; // we can't do anything here. ValidatePlan() will return false. // While stepping out, behave as-if artificial frames are not present. while (return_frame_sp->IsArtificial()) { m_stepped_past_frames.push_back(return_frame_sp); ++return_frame_index; return_frame_sp = thread.GetStackFrameAtIndex(return_frame_index); // We never expect to see an artificial frame without a regular ancestor. // If this happens, log the issue and defensively refuse to step out. if (!return_frame_sp) { LLDB_LOG(log, "Can't step out of frame with artificial ancestors"); return; } } m_step_out_to_id = return_frame_sp->GetStackID(); m_immediate_step_from_id = immediate_return_from_sp->GetStackID(); // If the frame directly below the one we are returning to is inlined, we // have to be a little more careful. It is non-trivial to determine the real // "return code address" for an inlined frame, so we have to work our way to // that frame and then step out. if (immediate_return_from_sp->IsInlined()) { if (frame_idx > 0) { // First queue a plan that gets us to this inlined frame, and when we get // there we'll queue a second plan that walks us out of this frame. m_step_out_to_inline_plan_sp = std::make_shared( thread, nullptr, false, stop_others, eVoteNoOpinion, eVoteNoOpinion, frame_idx - 1, eLazyBoolNo, continue_to_next_branch); static_cast(m_step_out_to_inline_plan_sp.get()) ->SetShouldStopHereCallbacks(nullptr, nullptr); m_step_out_to_inline_plan_sp->SetPrivate(true); } else { // If we're already at the inlined frame we're stepping through, then // just do that now. QueueInlinedStepPlan(false); } } else { // Find the return address and set a breakpoint there: // FIXME - can we do this more securely if we know first_insn? Address return_address(return_frame_sp->GetFrameCodeAddress()); if (continue_to_next_branch) { SymbolContext return_address_sc; AddressRange range; Address return_address_decr_pc = return_address; if (return_address_decr_pc.GetOffset() > 0) return_address_decr_pc.Slide(-1); return_address_decr_pc.CalculateSymbolContext( &return_address_sc, lldb::eSymbolContextLineEntry); if (return_address_sc.line_entry.IsValid()) { const bool include_inlined_functions = false; range = return_address_sc.line_entry.GetSameLineContiguousAddressRange( include_inlined_functions); if (range.GetByteSize() > 0) { return_address = m_process.AdvanceAddressToNextBranchInstruction( return_address, range); } } } m_return_addr = return_address.GetLoadAddress(&m_process.GetTarget()); if (m_return_addr == LLDB_INVALID_ADDRESS) return; // Perform some additional validation on the return address. uint32_t permissions = 0; if (!m_process.GetLoadAddressPermissions(m_return_addr, permissions)) { LLDB_LOGF(log, "ThreadPlanStepOut(%p): Return address (0x%" PRIx64 ") permissions not found.", static_cast(this), m_return_addr); } else if (!(permissions & ePermissionsExecutable)) { m_constructor_errors.Printf("Return address (0x%" PRIx64 ") did not point to executable memory.", m_return_addr); LLDB_LOGF(log, "ThreadPlanStepOut(%p): %s", static_cast(this), m_constructor_errors.GetData()); return; } Breakpoint *return_bp = GetTarget().CreateBreakpoint(m_return_addr, true, false).get(); if (return_bp != nullptr) { if (return_bp->IsHardware() && !return_bp->HasResolvedLocations()) m_could_not_resolve_hw_bp = true; return_bp->SetThreadID(m_tid); m_return_bp_id = return_bp->GetID(); return_bp->SetBreakpointKind("step-out"); } if (immediate_return_from_sp) { const SymbolContext &sc = immediate_return_from_sp->GetSymbolContext(eSymbolContextFunction); if (sc.function) { m_immediate_step_from_function = sc.function; } } } } void ThreadPlanStepOut::SetupAvoidNoDebug( LazyBool step_out_avoids_code_without_debug_info) { bool avoid_nodebug = true; switch (step_out_avoids_code_without_debug_info) { case eLazyBoolYes: avoid_nodebug = true; break; case eLazyBoolNo: avoid_nodebug = false; break; case eLazyBoolCalculate: avoid_nodebug = GetThread().GetStepOutAvoidsNoDebug(); break; } if (avoid_nodebug) GetFlags().Set(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug); else GetFlags().Clear(ThreadPlanShouldStopHere::eStepOutAvoidNoDebug); } void ThreadPlanStepOut::DidPush() { Thread &thread = GetThread(); if (m_step_out_to_inline_plan_sp) thread.QueueThreadPlan(m_step_out_to_inline_plan_sp, false); else if (m_step_through_inline_plan_sp) thread.QueueThreadPlan(m_step_through_inline_plan_sp, false); } ThreadPlanStepOut::~ThreadPlanStepOut() { if (m_return_bp_id != LLDB_INVALID_BREAK_ID) GetTarget().RemoveBreakpointByID(m_return_bp_id); } void ThreadPlanStepOut::GetDescription(Stream *s, lldb::DescriptionLevel level) { if (level == lldb::eDescriptionLevelBrief) s->Printf("step out"); else { if (m_step_out_to_inline_plan_sp) s->Printf("Stepping out to inlined frame so we can walk through it."); else if (m_step_through_inline_plan_sp) s->Printf("Stepping out by stepping through inlined function."); else { s->Printf("Stepping out from "); Address tmp_address; if (tmp_address.SetLoadAddress(m_step_from_insn, &GetTarget())) { tmp_address.Dump(s, &m_process, Address::DumpStyleResolvedDescription, Address::DumpStyleLoadAddress); } else { s->Printf("address 0x%" PRIx64 "", (uint64_t)m_step_from_insn); } // FIXME: find some useful way to present the m_return_id, since there may // be multiple copies of the // same function on the stack. s->Printf(" returning to frame at "); if (tmp_address.SetLoadAddress(m_return_addr, &GetTarget())) { tmp_address.Dump(s, &m_process, Address::DumpStyleResolvedDescription, Address::DumpStyleLoadAddress); } else { s->Printf("address 0x%" PRIx64 "", (uint64_t)m_return_addr); } if (level == eDescriptionLevelVerbose) s->Printf(" using breakpoint site %d", m_return_bp_id); } } if (m_stepped_past_frames.empty()) return; s->Printf("\n"); for (StackFrameSP frame_sp : m_stepped_past_frames) { s->Printf("Stepped out past: "); frame_sp->DumpUsingSettingsFormat(s); } } bool ThreadPlanStepOut::ValidatePlan(Stream *error) { if (m_step_out_to_inline_plan_sp) return m_step_out_to_inline_plan_sp->ValidatePlan(error); if (m_step_through_inline_plan_sp) return m_step_through_inline_plan_sp->ValidatePlan(error); if (m_could_not_resolve_hw_bp) { if (error) error->PutCString( "Could not create hardware breakpoint for thread plan."); return false; } if (m_return_bp_id == LLDB_INVALID_BREAK_ID) { if (error) { error->PutCString("Could not create return address breakpoint."); if (m_constructor_errors.GetSize() > 0) { error->PutCString(" "); error->PutCString(m_constructor_errors.GetString()); } } return false; } return true; } bool ThreadPlanStepOut::DoPlanExplainsStop(Event *event_ptr) { // If the step out plan is done, then we just need to step through the // inlined frame. if (m_step_out_to_inline_plan_sp) { return m_step_out_to_inline_plan_sp->MischiefManaged(); } else if (m_step_through_inline_plan_sp) { if (m_step_through_inline_plan_sp->MischiefManaged()) { CalculateReturnValue(); SetPlanComplete(); return true; } else return false; } else if (m_step_out_further_plan_sp) { return m_step_out_further_plan_sp->MischiefManaged(); } // We don't explain signals or breakpoints (breakpoints that handle stepping // in or out will be handled by a child plan. StopInfoSP stop_info_sp = GetPrivateStopInfo(); if (stop_info_sp) { StopReason reason = stop_info_sp->GetStopReason(); if (reason == eStopReasonBreakpoint) { // If this is OUR breakpoint, we're fine, otherwise we don't know why // this happened... BreakpointSiteSP site_sp( m_process.GetBreakpointSiteList().FindByID(stop_info_sp->GetValue())); if (site_sp && site_sp->IsBreakpointAtThisSite(m_return_bp_id)) { bool done; StackID frame_zero_id = GetThread().GetStackFrameAtIndex(0)->GetStackID(); if (m_step_out_to_id == frame_zero_id) done = true; else if (m_step_out_to_id < frame_zero_id) { // Either we stepped past the breakpoint, or the stack ID calculation // was incorrect and we should probably stop. done = true; } else { done = (m_immediate_step_from_id < frame_zero_id); } if (done) { if (InvokeShouldStopHereCallback(eFrameCompareOlder, m_status)) { CalculateReturnValue(); SetPlanComplete(); } } // If there was only one owner, then we're done. But if we also hit // some user breakpoint on our way out, we should mark ourselves as // done, but also not claim to explain the stop, since it is more // important to report the user breakpoint than the step out // completion. if (site_sp->GetNumberOfOwners() == 1) return true; } return false; } else if (IsUsuallyUnexplainedStopReason(reason)) return false; else return true; } return true; } bool ThreadPlanStepOut::ShouldStop(Event *event_ptr) { if (IsPlanComplete()) return true; bool done = false; if (m_step_out_to_inline_plan_sp) { if (m_step_out_to_inline_plan_sp->MischiefManaged()) { // Now step through the inlined stack we are in: if (QueueInlinedStepPlan(true)) { // If we can't queue a plan to do this, then just call ourselves done. m_step_out_to_inline_plan_sp.reset(); SetPlanComplete(false); return true; } else done = true; } else return m_step_out_to_inline_plan_sp->ShouldStop(event_ptr); } else if (m_step_through_inline_plan_sp) { if (m_step_through_inline_plan_sp->MischiefManaged()) done = true; else return m_step_through_inline_plan_sp->ShouldStop(event_ptr); } else if (m_step_out_further_plan_sp) { if (m_step_out_further_plan_sp->MischiefManaged()) m_step_out_further_plan_sp.reset(); else return m_step_out_further_plan_sp->ShouldStop(event_ptr); } if (!done) { StackID frame_zero_id = GetThread().GetStackFrameAtIndex(0)->GetStackID(); done = !(frame_zero_id < m_step_out_to_id); } // The normal step out computations think we are done, so all we need to do // is consult the ShouldStopHere, and we are done. if (done) { if (InvokeShouldStopHereCallback(eFrameCompareOlder, m_status)) { CalculateReturnValue(); SetPlanComplete(); } else { m_step_out_further_plan_sp = QueueStepOutFromHerePlan(m_flags, eFrameCompareOlder, m_status); done = false; } } return done; } bool ThreadPlanStepOut::StopOthers() { return m_stop_others; } StateType ThreadPlanStepOut::GetPlanRunState() { return eStateRunning; } bool ThreadPlanStepOut::DoWillResume(StateType resume_state, bool current_plan) { if (m_step_out_to_inline_plan_sp || m_step_through_inline_plan_sp) return true; if (m_return_bp_id == LLDB_INVALID_BREAK_ID) return false; if (current_plan) { Breakpoint *return_bp = GetTarget().GetBreakpointByID(m_return_bp_id).get(); if (return_bp != nullptr) return_bp->SetEnabled(true); } return true; } bool ThreadPlanStepOut::WillStop() { if (m_return_bp_id != LLDB_INVALID_BREAK_ID) { Breakpoint *return_bp = GetTarget().GetBreakpointByID(m_return_bp_id).get(); if (return_bp != nullptr) return_bp->SetEnabled(false); } return true; } bool ThreadPlanStepOut::MischiefManaged() { if (IsPlanComplete()) { // Did I reach my breakpoint? If so I'm done. // // I also check the stack depth, since if we've blown past the breakpoint // for some // reason and we're now stopping for some other reason altogether, then // we're done with this step out operation. Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP)); if (log) LLDB_LOGF(log, "Completed step out plan."); if (m_return_bp_id != LLDB_INVALID_BREAK_ID) { GetTarget().RemoveBreakpointByID(m_return_bp_id); m_return_bp_id = LLDB_INVALID_BREAK_ID; } ThreadPlan::MischiefManaged(); return true; } else { return false; } } bool ThreadPlanStepOut::QueueInlinedStepPlan(bool queue_now) { // Now figure out the range of this inlined block, and set up a "step through // range" plan for that. If we've been provided with a context, then use the // block in that context. Thread &thread = GetThread(); StackFrameSP immediate_return_from_sp(thread.GetStackFrameAtIndex(0)); if (!immediate_return_from_sp) return false; Log *log(lldb_private::GetLogIfAllCategoriesSet(LIBLLDB_LOG_STEP)); if (log) { StreamString s; immediate_return_from_sp->Dump(&s, true, false); LLDB_LOGF(log, "Queuing inlined frame to step past: %s.", s.GetData()); } Block *from_block = immediate_return_from_sp->GetFrameBlock(); if (from_block) { Block *inlined_block = from_block->GetContainingInlinedBlock(); if (inlined_block) { size_t num_ranges = inlined_block->GetNumRanges(); AddressRange inline_range; if (inlined_block->GetRangeAtIndex(0, inline_range)) { SymbolContext inlined_sc; inlined_block->CalculateSymbolContext(&inlined_sc); inlined_sc.target_sp = GetTarget().shared_from_this(); RunMode run_mode = m_stop_others ? lldb::eOnlyThisThread : lldb::eAllThreads; const LazyBool avoid_no_debug = eLazyBoolNo; m_step_through_inline_plan_sp = std::make_shared( thread, inline_range, inlined_sc, run_mode, avoid_no_debug); ThreadPlanStepOverRange *step_through_inline_plan_ptr = static_cast( m_step_through_inline_plan_sp.get()); m_step_through_inline_plan_sp->SetPrivate(true); step_through_inline_plan_ptr->SetOkayToDiscard(true); StreamString errors; if (!step_through_inline_plan_ptr->ValidatePlan(&errors)) { // FIXME: Log this failure. delete step_through_inline_plan_ptr; return false; } for (size_t i = 1; i < num_ranges; i++) { if (inlined_block->GetRangeAtIndex(i, inline_range)) step_through_inline_plan_ptr->AddRange(inline_range); } if (queue_now) thread.QueueThreadPlan(m_step_through_inline_plan_sp, false); return true; } } } return false; } void ThreadPlanStepOut::CalculateReturnValue() { if (m_return_valobj_sp) return; if (!m_calculate_return_value) return; if (m_immediate_step_from_function != nullptr) { CompilerType return_compiler_type = m_immediate_step_from_function->GetCompilerType() .GetFunctionReturnType(); if (return_compiler_type) { lldb::ABISP abi_sp = m_process.GetABI(); if (abi_sp) m_return_valobj_sp = abi_sp->GetReturnValueObject(GetThread(), return_compiler_type); } } } bool ThreadPlanStepOut::IsPlanStale() { // If we are still lower on the stack than the frame we are returning to, // then there's something for us to do. Otherwise, we're stale. StackID frame_zero_id = GetThread().GetStackFrameAtIndex(0)->GetStackID(); return !(frame_zero_id < m_step_out_to_id); }