//===-- SBInstruction.cpp ---------------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "lldb/API/SBInstruction.h" #include "lldb/API/SBAddress.h" #include "lldb/API/SBFrame.h" #include "lldb/API/SBInstruction.h" #include "lldb/API/SBStream.h" #include "lldb/API/SBTarget.h" #include "lldb/Core/ArchSpec.h" #include "lldb/Core/DataBufferHeap.h" #include "lldb/Core/DataExtractor.h" #include "lldb/Core/Disassembler.h" #include "lldb/Core/EmulateInstruction.h" #include "lldb/Core/Module.h" #include "lldb/Core/StreamFile.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Target/StackFrame.h" #include "lldb/Target/Target.h" //---------------------------------------------------------------------- // We recently fixed a leak in one of the Instruction subclasses where // the instruction will only hold a weak reference to the disassembler // to avoid a cycle that was keeping both objects alive (leak) and we // need the InstructionImpl class to make sure our public API behaves // as users would expect. Calls in our public API allow clients to do // things like: // // 1 lldb::SBInstruction inst; // 2 inst = target.ReadInstructions(pc, 1).GetInstructionAtIndex(0) // 3 if (inst.DoesBranch()) // 4 ... // // There was a temporary lldb::DisassemblerSP object created in the // SBInstructionList that was returned by lldb.target.ReadInstructions() // that will go away after line 2 but the "inst" object should be able // to still answer questions about itself. So we make sure that any // SBInstruction objects that are given out have a strong reference to // the disassembler and the instruction so that the object can live and // successfully respond to all queries. //---------------------------------------------------------------------- class InstructionImpl { public: InstructionImpl (const lldb::DisassemblerSP &disasm_sp, const lldb::InstructionSP& inst_sp) : m_disasm_sp(disasm_sp), m_inst_sp(inst_sp) { } lldb::InstructionSP GetSP() const { return m_inst_sp; } bool IsValid() const { return (bool)m_inst_sp; } protected: lldb::DisassemblerSP m_disasm_sp; // Can be empty/invalid lldb::InstructionSP m_inst_sp; }; using namespace lldb; using namespace lldb_private; SBInstruction::SBInstruction() : m_opaque_sp() { } SBInstruction::SBInstruction(const lldb::DisassemblerSP &disasm_sp, const lldb::InstructionSP& inst_sp) : m_opaque_sp(new InstructionImpl(disasm_sp, inst_sp)) { } SBInstruction::SBInstruction(const SBInstruction &rhs) : m_opaque_sp (rhs.m_opaque_sp) { } const SBInstruction & SBInstruction::operator = (const SBInstruction &rhs) { if (this != &rhs) m_opaque_sp = rhs.m_opaque_sp; return *this; } SBInstruction::~SBInstruction () { } bool SBInstruction::IsValid() { return m_opaque_sp && m_opaque_sp->IsValid(); } SBAddress SBInstruction::GetAddress() { SBAddress sb_addr; lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp && inst_sp->GetAddress().IsValid()) sb_addr.SetAddress(&inst_sp->GetAddress()); return sb_addr; } const char * SBInstruction::GetMnemonic(SBTarget target) { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { ExecutionContext exe_ctx; TargetSP target_sp (target.GetSP()); std::unique_lock lock; if (target_sp) { lock = std::unique_lock(target_sp->GetAPIMutex()); target_sp->CalculateExecutionContext (exe_ctx); exe_ctx.SetProcessSP(target_sp->GetProcessSP()); } return inst_sp->GetMnemonic(&exe_ctx); } return NULL; } const char * SBInstruction::GetOperands(SBTarget target) { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { ExecutionContext exe_ctx; TargetSP target_sp (target.GetSP()); std::unique_lock lock; if (target_sp) { lock = std::unique_lock(target_sp->GetAPIMutex()); target_sp->CalculateExecutionContext (exe_ctx); exe_ctx.SetProcessSP(target_sp->GetProcessSP()); } return inst_sp->GetOperands(&exe_ctx); } return NULL; } const char * SBInstruction::GetComment(SBTarget target) { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { ExecutionContext exe_ctx; TargetSP target_sp (target.GetSP()); std::unique_lock lock; if (target_sp) { lock = std::unique_lock(target_sp->GetAPIMutex()); target_sp->CalculateExecutionContext (exe_ctx); exe_ctx.SetProcessSP(target_sp->GetProcessSP()); } return inst_sp->GetComment(&exe_ctx); } return NULL; } size_t SBInstruction::GetByteSize () { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) return inst_sp->GetOpcode().GetByteSize(); return 0; } SBData SBInstruction::GetData (SBTarget target) { lldb::SBData sb_data; lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { DataExtractorSP data_extractor_sp (new DataExtractor()); if (inst_sp->GetData (*data_extractor_sp)) { sb_data.SetOpaque (data_extractor_sp); } } return sb_data; } bool SBInstruction::DoesBranch () { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) return inst_sp->DoesBranch (); return false; } bool SBInstruction::HasDelaySlot () { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) return inst_sp->HasDelaySlot (); return false; } lldb::InstructionSP SBInstruction::GetOpaque () { if (m_opaque_sp) return m_opaque_sp->GetSP(); else return lldb::InstructionSP(); } void SBInstruction::SetOpaque (const lldb::DisassemblerSP &disasm_sp, const lldb::InstructionSP& inst_sp) { m_opaque_sp.reset(new InstructionImpl(disasm_sp, inst_sp)); } bool SBInstruction::GetDescription (lldb::SBStream &s) { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { SymbolContext sc; const Address &addr = inst_sp->GetAddress(); ModuleSP module_sp (addr.GetModule()); if (module_sp) module_sp->ResolveSymbolContextForAddress(addr, eSymbolContextEverything, sc); // Use the "ref()" instead of the "get()" accessor in case the SBStream // didn't have a stream already created, one will get created... FormatEntity::Entry format; FormatEntity::Parse("${addr}: ", format); inst_sp->Dump (&s.ref(), 0, true, false, NULL, &sc, NULL, &format, 0); return true; } return false; } void SBInstruction::Print (FILE *out) { if (out == NULL) return; lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { SymbolContext sc; const Address &addr = inst_sp->GetAddress(); ModuleSP module_sp (addr.GetModule()); if (module_sp) module_sp->ResolveSymbolContextForAddress(addr, eSymbolContextEverything, sc); StreamFile out_stream (out, false); FormatEntity::Entry format; FormatEntity::Parse("${addr}: ", format); inst_sp->Dump (&out_stream, 0, true, false, NULL, &sc, NULL, &format, 0); } } bool SBInstruction::EmulateWithFrame (lldb::SBFrame &frame, uint32_t evaluate_options) { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) { lldb::StackFrameSP frame_sp (frame.GetFrameSP()); if (frame_sp) { lldb_private::ExecutionContext exe_ctx; frame_sp->CalculateExecutionContext (exe_ctx); lldb_private::Target *target = exe_ctx.GetTargetPtr(); lldb_private::ArchSpec arch = target->GetArchitecture(); return inst_sp->Emulate(arch, evaluate_options, (void *) frame_sp.get(), &lldb_private::EmulateInstruction::ReadMemoryFrame, &lldb_private::EmulateInstruction::WriteMemoryFrame, &lldb_private::EmulateInstruction::ReadRegisterFrame, &lldb_private::EmulateInstruction::WriteRegisterFrame); } } return false; } bool SBInstruction::DumpEmulation (const char *triple) { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp && triple) { lldb_private::ArchSpec arch (triple, NULL); return inst_sp->DumpEmulation (arch); } return false; } bool SBInstruction::TestEmulation (lldb::SBStream &output_stream, const char *test_file) { if (!m_opaque_sp) SetOpaque(lldb::DisassemblerSP(), lldb::InstructionSP(new PseudoInstruction())); lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) return inst_sp->TestEmulation (output_stream.get(), test_file); return false; } lldb::AddressClass SBInstruction::GetAddressClass () { lldb::InstructionSP inst_sp(GetOpaque()); if (inst_sp) return inst_sp->GetAddressClass(); return eAddressClassInvalid; }