//===-- DisassemblerLLVMC.cpp -----------------------------------*- C++ -*-===// // // The LLVM Compiler Infrastructure // // This file is distributed under the University of Illinois Open Source // License. See LICENSE.TXT for details. // //===----------------------------------------------------------------------===// #include "DisassemblerLLVMC.h" #include "llvm-c/Disassembler.h" #include "llvm/Support/TargetSelect.h" #include "lldb/Core/Address.h" #include "lldb/Core/DataExtractor.h" #include "lldb/Core/Module.h" #include "lldb/Core/Stream.h" #include "lldb/Symbol/SymbolContext.h" #include "lldb/Target/ExecutionContext.h" #include "lldb/Target/Process.h" #include "lldb/Target/RegisterContext.h" #include "lldb/Target/Target.h" #include "lldb/Target/StackFrame.h" #include using namespace lldb; using namespace lldb_private; class InstructionLLVMC : public lldb_private::Instruction { public: InstructionLLVMC (DisassemblerLLVMC &disasm, const lldb_private::Address &address, AddressClass addr_class) : Instruction(address, addr_class), m_is_valid(false), m_disasm(disasm), m_disasm_sp(disasm.shared_from_this()), m_does_branch(eLazyBoolCalculate) { } virtual ~InstructionLLVMC () { } static void PadToWidth (lldb_private::StreamString &ss, int new_width) { int old_width = ss.GetSize(); if (old_width < new_width) { ss.Printf("%*s", new_width - old_width, ""); } } virtual bool DoesBranch () const { return m_does_branch == eLazyBoolYes; } virtual size_t Decode (const lldb_private::Disassembler &disassembler, const lldb_private::DataExtractor &data, uint32_t data_offset) { // All we have to do is read the opcode which can be easy for some // architetures bool got_op = false; const ArchSpec &arch = m_disasm.GetArchitecture(); const uint32_t min_op_byte_size = arch.GetMinimumOpcodeByteSize(); const uint32_t max_op_byte_size = arch.GetMaximumOpcodeByteSize(); if (min_op_byte_size == max_op_byte_size) { // Fixed size instructions, just read that amount of data. if (!data.ValidOffsetForDataOfSize(data_offset, min_op_byte_size)) return false; switch (min_op_byte_size) { case 1: m_opcode.SetOpcode8 (data.GetU8 (&data_offset)); got_op = true; break; case 2: m_opcode.SetOpcode16 (data.GetU16 (&data_offset)); got_op = true; break; case 4: m_opcode.SetOpcode32 (data.GetU32 (&data_offset)); got_op = true; break; case 8: m_opcode.SetOpcode64 (data.GetU64 (&data_offset)); got_op = true; break; default: m_opcode.SetOpcodeBytes(data.PeekData(data_offset, min_op_byte_size), min_op_byte_size); got_op = true; break; } } if (!got_op) { ::LLVMDisasmContextRef disasm_context = m_disasm.m_disasm_context; bool is_altnernate_isa = false; if (m_disasm.m_alternate_disasm_context) { const AddressClass address_class = GetAddressClass (); if (address_class == eAddressClassCodeAlternateISA) { disasm_context = m_disasm.m_alternate_disasm_context; is_altnernate_isa = true; } } const llvm::Triple::ArchType machine = arch.GetMachine(); if (machine == llvm::Triple::arm || machine == llvm::Triple::thumb) { if (machine == llvm::Triple::thumb || is_altnernate_isa) { uint32_t thumb_opcode = data.GetU16(&data_offset); if ((thumb_opcode & 0xe000) != 0xe000 || ((thumb_opcode & 0x1800u) == 0)) { m_opcode.SetOpcode16 (thumb_opcode); m_is_valid = true; } else { thumb_opcode <<= 16; thumb_opcode |= data.GetU16(&data_offset); m_opcode.SetOpcode16_2 (thumb_opcode); m_is_valid = true; } } else { m_opcode.SetOpcode32 (data.GetU32(&data_offset)); m_is_valid = true; } } else { // The opcode isn't evenly sized, so we need to actually use the llvm // disassembler to parse it and get the size. char out_string[512]; m_disasm.Lock(this, NULL); uint8_t *opcode_data = const_cast(data.PeekData (data_offset, 1)); const size_t opcode_data_len = data.GetByteSize() - data_offset; const addr_t pc = m_address.GetFileAddress(); const size_t inst_size = ::LLVMDisasmInstruction (disasm_context, opcode_data, opcode_data_len, pc, // PC value out_string, sizeof(out_string)); // The address lookup function could have caused us to fill in our comment m_comment.clear(); m_disasm.Unlock(); if (inst_size == 0) m_opcode.Clear(); else { m_opcode.SetOpcodeBytes(opcode_data, inst_size); m_is_valid = true; } } } return m_opcode.GetByteSize(); } void AppendComment (std::string &description) { if (m_comment.empty()) m_comment.swap (description); else { m_comment.append(", "); m_comment.append(description); } } virtual void CalculateMnemonicOperandsAndComment (const lldb_private::ExecutionContext *exe_ctx) { DataExtractor data; const AddressClass address_class = GetAddressClass (); if (m_opcode.GetData(data)) { char out_string[512]; ::LLVMDisasmContextRef disasm_context; if (address_class == eAddressClassCodeAlternateISA) disasm_context = m_disasm.m_alternate_disasm_context; else disasm_context = m_disasm.m_disasm_context; lldb::addr_t pc = LLDB_INVALID_ADDRESS; if (exe_ctx) { Target *target = exe_ctx->GetTargetPtr(); if (target) pc = m_address.GetLoadAddress(target); } if (pc == LLDB_INVALID_ADDRESS) pc = m_address.GetFileAddress(); m_disasm.Lock(this, exe_ctx); uint8_t *opcode_data = const_cast(data.PeekData (0, 1)); const size_t opcode_data_len = data.GetByteSize(); size_t inst_size = ::LLVMDisasmInstruction (disasm_context, opcode_data, opcode_data_len, pc, out_string, sizeof(out_string)); m_disasm.Unlock(); if (inst_size == 0) { m_comment.assign ("unknown opcode"); inst_size = m_opcode.GetByteSize(); StreamString mnemonic_strm; uint32_t offset = 0; switch (inst_size) { case 1: { const uint8_t uval8 = data.GetU8 (&offset); m_opcode.SetOpcode8 (uval8); m_opcode_name.assign (".byte"); mnemonic_strm.Printf("0x%2.2x", uval8); } break; case 2: { const uint16_t uval16 = data.GetU16(&offset); m_opcode.SetOpcode16(uval16); m_opcode_name.assign (".short"); mnemonic_strm.Printf("0x%4.4x", uval16); } break; case 4: { const uint32_t uval32 = data.GetU32(&offset); m_opcode.SetOpcode32(uval32); m_opcode_name.assign (".long"); mnemonic_strm.Printf("0x%8.8x", uval32); } break; case 8: { const uint64_t uval64 = data.GetU64(&offset); m_opcode.SetOpcode64(uval64); m_opcode_name.assign (".quad"); mnemonic_strm.Printf("0x%16.16llx", uval64); } break; default: if (inst_size == 0) return; else { const uint8_t *bytes = data.PeekData(offset, inst_size); if (bytes == NULL) return; m_opcode_name.assign (".byte"); m_opcode.SetOpcodeBytes(bytes, inst_size); mnemonic_strm.Printf("0x%2.2x", bytes[0]); for (uint32_t i=1; i= data + size) return false; llvm::Triple::ArchType arch = m_disasm.GetArchitecture().GetMachine(); switch (arch) { default: return false; case llvm::Triple::x86: case llvm::Triple::x86_64: switch (cursor[0]) { default: return false; case 'j': return true; case 'c': if (cursor[1] == 'a' && cursor[2] == 'l' && cursor[3] == 'l') return true; else return false; } case llvm::Triple::arm: case llvm::Triple::thumb: switch (cursor[0]) { default: return false; case 'b': { switch (cursor[1]) { default: return true; case 'f': case 'i': case 'k': return false; } } case 'c': { switch (cursor[1]) { default: return false; case 'b': return true; } } } } return false; } bool m_is_valid; DisassemblerLLVMC &m_disasm; DisassemblerSP m_disasm_sp; // for ownership LazyBool m_does_branch; static bool s_regex_compiled; static ::regex_t s_regex; }; bool InstructionLLVMC::s_regex_compiled = false; ::regex_t InstructionLLVMC::s_regex; Disassembler * DisassemblerLLVMC::CreateInstance (const ArchSpec &arch) { if (arch.GetTriple().getArch() != llvm::Triple::UnknownArch) { std::auto_ptr disasm_ap (new DisassemblerLLVMC(arch)); if (disasm_ap.get() && disasm_ap->IsValid()) return disasm_ap.release(); } return NULL; } DisassemblerLLVMC::DisassemblerLLVMC (const ArchSpec &arch) : Disassembler(arch), m_exe_ctx (NULL), m_inst (NULL), m_disasm_context (NULL), m_alternate_disasm_context (NULL) { m_disasm_context = ::LLVMCreateDisasm(arch.GetTriple().getTriple().c_str(), (void*)this, /*TagType=*/1, NULL, DisassemblerLLVMC::SymbolLookupCallback); if (arch.GetTriple().getArch() == llvm::Triple::arm) { ArchSpec thumb_arch(arch); thumb_arch.GetTriple().setArchName(llvm::StringRef("thumbv7")); std::string thumb_triple(thumb_arch.GetTriple().getTriple()); m_alternate_disasm_context = ::LLVMCreateDisasm(thumb_triple.c_str(), (void*)this, /*TagType=*/1, NULL, DisassemblerLLVMC::SymbolLookupCallback); } } DisassemblerLLVMC::~DisassemblerLLVMC() { if (m_disasm_context) { ::LLVMDisasmDispose(m_disasm_context); m_disasm_context = NULL; } if (m_alternate_disasm_context) { ::LLVMDisasmDispose(m_alternate_disasm_context); m_alternate_disasm_context = NULL; } } size_t DisassemblerLLVMC::DecodeInstructions (const Address &base_addr, const DataExtractor& data, uint32_t data_offset, uint32_t num_instructions, bool append) { if (!append) m_instruction_list.Clear(); if (!IsValid()) return 0; uint32_t data_cursor = data_offset; const size_t data_byte_size = data.GetByteSize(); uint32_t instructions_parsed = 0; Address inst_addr(base_addr); while (data_cursor < data_byte_size && instructions_parsed < num_instructions) { AddressClass address_class = eAddressClassCode; if (m_alternate_disasm_context) address_class = inst_addr.GetAddressClass (); InstructionSP inst_sp(new InstructionLLVMC(*this, inst_addr, address_class)); if (!inst_sp) break; uint32_t inst_size = inst_sp->Decode(*this, data, data_cursor); if (inst_size == 0) break; m_instruction_list.Append(inst_sp); data_cursor += inst_size; inst_addr.Slide(inst_size); instructions_parsed++; } return data_cursor - data_offset; } void DisassemblerLLVMC::Initialize() { PluginManager::RegisterPlugin (GetPluginNameStatic(), GetPluginDescriptionStatic(), CreateInstance); llvm::InitializeAllTargetInfos(); llvm::InitializeAllTargetMCs(); llvm::InitializeAllAsmParsers(); llvm::InitializeAllDisassemblers(); } void DisassemblerLLVMC::Terminate() { PluginManager::UnregisterPlugin (CreateInstance); } const char * DisassemblerLLVMC::GetPluginNameStatic() { return "llvm-mc"; } const char * DisassemblerLLVMC::GetPluginDescriptionStatic() { return "Disassembler that uses LLVM MC to disassemble i386, x86_64 and ARM."; } int DisassemblerLLVMC::OpInfoCallback (void *disassembler, uint64_t pc, uint64_t offset, uint64_t size, int tag_type, void *tag_bug) { return static_cast(disassembler)->OpInfo (pc, offset, size, tag_type, tag_bug); } const char *DisassemblerLLVMC::SymbolLookupCallback (void *disassembler, uint64_t value, uint64_t *type, uint64_t pc, const char **name) { return static_cast(disassembler)->SymbolLookup(value, type, pc, name); } int DisassemblerLLVMC::OpInfo (uint64_t PC, uint64_t Offset, uint64_t Size, int tag_type, void *tag_bug) { switch (tag_type) { default: break; case 1: bzero (tag_bug, sizeof(::LLVMOpInfo1)); break; } return 0; } const char *DisassemblerLLVMC::SymbolLookup (uint64_t value, uint64_t *type_ptr, uint64_t pc, const char **name) { if (*type_ptr) { if (m_exe_ctx && m_inst) { //std::string remove_this_prior_to_checkin; Address reference_address; Target *target = m_exe_ctx ? m_exe_ctx->GetTargetPtr() : NULL; if (target && !target->GetSectionLoadList().IsEmpty()) target->GetSectionLoadList().ResolveLoadAddress(value, reference_address); else { ModuleSP module_sp(m_inst->GetAddress().GetModule()); if (module_sp) module_sp->ResolveFileAddress(value, reference_address); } if (reference_address.IsValid() && reference_address.GetSection()) { StreamString ss; reference_address.Dump (&ss, target, Address::DumpStyleResolvedDescriptionNoModule, Address::DumpStyleSectionNameOffset); if (!ss.GetString().empty()) { //remove_this_prior_to_checkin = ss.GetString(); //if (*type_ptr) m_inst->AppendComment(ss.GetString()); } } //printf ("DisassemblerLLVMC::SymbolLookup (value=0x%16.16llx, type=%llu, pc=0x%16.16llx, name=\"%s\") m_exe_ctx=%p, m_inst=%p\n", value, *type_ptr, pc, remove_this_prior_to_checkin.c_str(), m_exe_ctx, m_inst); } } *type_ptr = LLVMDisassembler_ReferenceType_InOut_None; *name = NULL; return NULL; } //------------------------------------------------------------------ // PluginInterface protocol //------------------------------------------------------------------ const char * DisassemblerLLVMC::GetPluginName() { return "DisassemblerLLVMC"; } const char * DisassemblerLLVMC::GetShortPluginName() { return GetPluginNameStatic(); } uint32_t DisassemblerLLVMC::GetPluginVersion() { return 1; }