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//===-- 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 <regex.h>
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,
lldb::offset_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<uint8_t *>(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<uint8_t *>(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;
lldb::offset_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%16.16" PRIx64, 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<inst_size; ++i)
mnemonic_strm.Printf(" 0x%2.2x", bytes[i]);
}
break;
}
m_mnemocics.swap(mnemonic_strm.GetString());
return;
}
else
{
if (m_does_branch == eLazyBoolCalculate)
{
if (StringRepresentsBranch (out_string, strlen(out_string)))
m_does_branch = eLazyBoolYes;
else
m_does_branch = eLazyBoolNo;
}
}
if (!s_regex_compiled)
{
::regcomp(&s_regex, "[ \t]*([^ ^\t]+)[ \t]*([^ ^\t].*)?", REG_EXTENDED);
s_regex_compiled = true;
}
::regmatch_t matches[3];
if (!::regexec(&s_regex, out_string, sizeof(matches) / sizeof(::regmatch_t), matches, 0))
{
if (matches[1].rm_so != -1)
m_opcode_name.assign(out_string + matches[1].rm_so, matches[1].rm_eo - matches[1].rm_so);
if (matches[2].rm_so != -1)
m_mnemocics.assign(out_string + matches[2].rm_so, matches[2].rm_eo - matches[2].rm_so);
}
}
}
bool
IsValid ()
{
return m_is_valid;
}
size_t
GetByteSize ()
{
return m_opcode.GetByteSize();
}
protected:
bool StringRepresentsBranch (const char *data, size_t size)
{
const char *cursor = data;
bool inWhitespace = true;
while (inWhitespace && cursor < data + size)
{
switch (*cursor)
{
default:
inWhitespace = false;
break;
case ' ':
break;
case '\t':
break;
}
if (inWhitespace)
++cursor;
}
if (cursor >= 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<DisassemblerLLVMC> 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,
lldb::offset_t data_offset,
size_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<DisassemblerLLVMC*>(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<DisassemblerLLVMC*>(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%16.16" PRIx64 ", type=%" PRIu64 ", pc=0x%16.16" PRIx64 ", 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;
}
|
