source/Plugins/Disassembler/llvm/DisassemblerLLVM.cpp - fp2-dev/platform/external/lldb - Gitiles

 //===-- DisassemblerLLVM.cpp ------------------------------------*- C++ -*-===//
 //
 //                     The LLVM Compiler Infrastructure
 //
 // This file is distributed under the University of Illinois Open Source
 // License. See LICENSE.TXT for details.
 //
 //===----------------------------------------------------------------------===//

 #include "DisassemblerLLVM.h"

 #include "llvm-c/EnhancedDisassembly.h"

 #include "lldb/Core/Address.h"
 #include "lldb/Core/DataExtractor.h"
 #include "lldb/Core/Disassembler.h"
 #include "lldb/Core/Module.h"
 #include "lldb/Core/PluginManager.h"
 #include "lldb/Core/Stream.h"
 #include "lldb/Core/StreamString.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 <memory>
 #include <string>

 using namespace lldb;
 using namespace lldb_private;


 static
 int DataExtractorByteReader(uint8_t *byte, uint64_t address, void *arg)
 {
     DataExtractor &extractor = *((DataExtractor *)arg);

     if (extractor.ValidOffset(address))
     {
         *byte = *(extractor.GetDataStart() + address);
         return 0;
     }
     else
     {
         return -1;
     }
 }

 namespace {
     struct RegisterReaderArg {
         const lldb::addr_t instructionPointer;
         const EDDisassemblerRef disassembler;

         RegisterReaderArg(lldb::addr_t ip,
                           EDDisassemblerRef dis) :
             instructionPointer(ip),
             disassembler(dis)
         {
         }
     };
 }

 static int IPRegisterReader(uint64_t *value, unsigned regID, void* arg)
 {
     uint64_t instructionPointer = ((RegisterReaderArg*)arg)->instructionPointer;
     EDDisassemblerRef disassembler = ((RegisterReaderArg*)arg)->disassembler;

     if(EDRegisterIsProgramCounter(disassembler, regID)) {
         *value = instructionPointer;
         return 0;
     }

     return -1;
 }

 DisassemblerLLVM::Instruction::Instruction(EDDisassemblerRef disassembler) :
     Disassembler::Instruction (),
     m_disassembler (disassembler)
 {
 }

 DisassemblerLLVM::Instruction::~Instruction()
 {
 }

 static void
 PadString(Stream *s, const std::string &str, size_t width)
 {
     int diff = width - str.length();

     if (diff > 0)
         s->Printf("%s%*.*s", str.c_str(), diff, diff, "");
     else
         s->Printf("%s ", str.c_str());
 }

 void
 DisassemblerLLVM::Instruction::Dump
 (
     Stream *s,
     lldb_private::Address *inst_addr_ptr,
     const DataExtractor *bytes,
     uint32_t bytes_offset,
     const lldb_private::ExecutionContext& exe_ctx,
     bool raw
 )
 {
     const size_t opcodeColumnWidth = 7;
     const size_t operandColumnWidth = 25;

     ExecutionContextScope *exe_scope = exe_ctx.GetBestExecutionContextScope();
     // If we have an address, print it out
     if (inst_addr_ptr)
     {
         if (inst_addr_ptr->Dump (s,
                                  exe_scope,
                                  Address::DumpStyleLoadAddress,
                                  Address::DumpStyleModuleWithFileAddress,
                                  0))
             s->PutCString(":  ");
     }

     // If we are supposed to show bytes, "bytes" will be non-NULL.
     if (bytes)
     {
         uint32_t bytes_dumped = bytes->Dump(s, bytes_offset, eFormatBytes, 1, EDInstByteSize(m_inst), UINT32_MAX, LLDB_INVALID_ADDRESS, 0, 0) - bytes_offset;
         // Allow for 8 bytes of opcodes normally
         const uint32_t default_num_opcode_bytes = 9;
         if (bytes_dumped * 3 < (default_num_opcode_bytes*3))
         {
             uint32_t indent_level = (default_num_opcode_bytes*3) - (bytes_dumped * 3);
             s->Printf("%*.*s", indent_level, indent_level, "");
         }
     }

     int numTokens = EDNumTokens(m_inst);

     int currentOpIndex = -1;

     lldb_private::Process *process = exe_ctx.process;
     addr_t base_addr = LLDB_INVALID_ADDRESS;
     if (process && process->IsAlive())
         base_addr = inst_addr_ptr->GetLoadAddress (process);
     if (base_addr == LLDB_INVALID_ADDRESS)
         base_addr = inst_addr_ptr->GetFileAddress ();

     RegisterReaderArg rra(base_addr + EDInstByteSize(m_inst), m_disassembler);


     bool printTokenized = false;

     if (numTokens != -1)
     {
         printTokenized = true;

         // Handle the opcode column.

         StreamString opcode;

         int tokenIndex = 0;

         EDTokenRef token;
         const char *tokenStr;

         if (EDGetToken(&token, m_inst, tokenIndex))
             printTokenized = false;

         if (!printTokenized || !EDTokenIsOpcode(token))
             printTokenized = false;

         if (!printTokenized || EDGetTokenString(&tokenStr, token))
             printTokenized = false;

         // Put the token string into our opcode string
         opcode.PutCString(tokenStr);

         // If anything follows, it probably starts with some whitespace.  Skip it.

         tokenIndex++;

         if (printTokenized && tokenIndex < numTokens)
         {
             if(!printTokenized || EDGetToken(&token, m_inst, tokenIndex))
                 printTokenized = false;

             if(!printTokenized || !EDTokenIsWhitespace(token))
                 printTokenized = false;
         }

         tokenIndex++;

         // Handle the operands and the comment.

         StreamString operands;
         StreamString comment;

         if (printTokenized)
         {
             bool show_token;

             for (; tokenIndex < numTokens; ++tokenIndex)
             {
                 if (EDGetToken(&token, m_inst, tokenIndex))
                     return;

                 if (raw)
                 {
                     show_token = true;
                 }
                 else
                 {
                     int operandIndex = EDOperandIndexForToken(token);

                     if (operandIndex >= 0)
                     {
                         if (operandIndex != currentOpIndex)
                         {
                             show_token = true;

                             currentOpIndex = operandIndex;
                             EDOperandRef operand;

                             if (!EDGetOperand(&operand, m_inst, currentOpIndex))
                             {
                                 if (EDOperandIsMemory(operand))
                                 {
                                     uint64_t operand_value;

                                     if (!EDEvaluateOperand(&operand_value, operand, IPRegisterReader, &rra))
                                     {
                                         if (EDInstIsBranch(m_inst))
                                         {
                                             operands.Printf("0x%llx ", operand_value);
                                             show_token = false;
                                         }
                                         else
                                         {
                                             // Put the address value into the comment
                                             comment.Printf("0x%llx ", operand_value);
                                         }

                                         lldb_private::Address so_addr;
                                         if (process && process->IsAlive())
                                         {
                                             if (process->ResolveLoadAddress (operand_value, so_addr))
                                                 so_addr.Dump(&comment, exe_scope, Address::DumpStyleResolvedDescriptionNoModule, Address::DumpStyleSectionNameOffset);
                                         }
                                         else if (inst_addr_ptr)
                                         {
                                             Module *module = inst_addr_ptr->GetModule();
                                             if (module)
                                             {
                                                 if (module->ResolveFileAddress (operand_value, so_addr))
                                                     so_addr.Dump(&comment, exe_scope, Address::DumpStyleResolvedDescriptionNoModule, Address::DumpStyleSectionNameOffset);
                                             }
                                         }

                                     } // EDEvaluateOperand
                                 } // EDOperandIsMemory
                             } // EDGetOperand
                         } // operandIndex != currentOpIndex
                     } // operandIndex >= 0
                 } // else(raw)

                 if (show_token)
                 {
                     if(EDGetTokenString(&tokenStr, token))
                     {
                         printTokenized = false;
                         break;
                     }

                     operands.PutCString(tokenStr);
                 }
             } // for (tokenIndex)

             if (printTokenized)
             {
                 if (operands.GetString().empty())
                 {
                     s->PutCString(opcode.GetString().c_str());
                 }
                 else
                 {
                     PadString(s, opcode.GetString(), opcodeColumnWidth);

                     if (comment.GetString().empty())
                     {
                         s->PutCString(operands.GetString().c_str());
                     }
                     else
                     {
                         PadString(s, operands.GetString(), operandColumnWidth);

                         s->PutCString("; ");
                         s->PutCString(comment.GetString().c_str());
                     } // else (comment.GetString().empty())
                 } // else (operands.GetString().empty())
             } // printTokenized
         } // for (tokenIndex)
     } // numTokens != -1

     if (!printTokenized)
     {
         const char *str;

         if (EDGetInstString(&str, m_inst))
             return;
         else
             s->PutCString(str);
     }
 }

 bool
 DisassemblerLLVM::Instruction::DoesBranch() const
 {
     return EDInstIsBranch(m_inst);
 }

 size_t
 DisassemblerLLVM::Instruction::GetByteSize() const
 {
     return EDInstByteSize(m_inst);
 }

 size_t
 DisassemblerLLVM::Instruction::Extract(const DataExtractor &data, uint32_t data_offset)
 {
     if (EDCreateInsts(&m_inst, 1, m_disassembler, DataExtractorByteReader, data_offset, (void*)(&data)))
         return EDInstByteSize(m_inst);
     else
         return 0;
 }

 static inline const char *
 TripleForArchSpec (const ArchSpec &arch, char *triple, size_t triple_len)
 {
     const char *arch_name = arch.AsCString();

     if (arch_name)
     {
         snprintf(triple, triple_len, "%s-unknown-unknown", arch_name);
         return triple;
     }
     return NULL;
 }

 static inline EDAssemblySyntax_t
 SyntaxForArchSpec (const ArchSpec &arch)
 {
     const char *arch_name = arch.AsCString();

     if (arch_name != NULL &&
        ((strcasestr (arch_name, "i386") == arch_name) ||
         (strcasestr (arch_name, "x86_64") == arch_name)))
         return kEDAssemblySyntaxX86ATT;

     return (EDAssemblySyntax_t)0;   // default
 }

 Disassembler *
 DisassemblerLLVM::CreateInstance(const ArchSpec &arch)
 {
     char triple[256];

     if (TripleForArchSpec (arch, triple, sizeof(triple)))
         return new DisassemblerLLVM(arch);
     return NULL;
 }

 DisassemblerLLVM::DisassemblerLLVM(const ArchSpec &arch) :
     Disassembler(arch)
 {
     char triple[256];
     if (TripleForArchSpec (arch, triple, sizeof(triple)))
     {
         assert(!EDGetDisassembler(&m_disassembler, triple, SyntaxForArchSpec (arch)) && "No disassembler created!");
     }
 }

 DisassemblerLLVM::~DisassemblerLLVM()
 {
 }

 size_t
 DisassemblerLLVM::DecodeInstructions
 (
     const DataExtractor& data,
     uint32_t data_offset,
     uint32_t num_instructions
 )
 {
     size_t total_inst_byte_size = 0;

     m_instruction_list.Clear();

     while (data.ValidOffset(data_offset) && num_instructions)
     {
         Instruction::shared_ptr inst_sp (new Instruction(m_disassembler));

         size_t inst_byte_size = inst_sp->Extract(data, data_offset);

         if (inst_byte_size == 0)
             break;

         m_instruction_list.AppendInstruction(inst_sp);

         total_inst_byte_size += inst_byte_size;
         data_offset += inst_byte_size;
         num_instructions--;
     }

     return total_inst_byte_size;
 }

 void
 DisassemblerLLVM::Initialize()
 {
     PluginManager::RegisterPlugin (GetPluginNameStatic(),
                                    GetPluginDescriptionStatic(),
                                    CreateInstance);
 }

 void
 DisassemblerLLVM::Terminate()
 {
     PluginManager::UnregisterPlugin (CreateInstance);
 }


 const char *
 DisassemblerLLVM::GetPluginNameStatic()
 {
     return "disassembler.llvm";
 }

 const char *
 DisassemblerLLVM::GetPluginDescriptionStatic()
 {
     return "Disassembler that uses LLVM opcode tables to disassemble i386 and x86_64.";
 }

 //------------------------------------------------------------------
 // PluginInterface protocol
 //------------------------------------------------------------------
 const char *
 DisassemblerLLVM::GetPluginName()
 {
     return "DisassemblerLLVM";
 }

 const char *
 DisassemblerLLVM::GetShortPluginName()
 {
     return GetPluginNameStatic();
 }

 uint32_t
 DisassemblerLLVM::GetPluginVersion()
 {
     return 1;
 }

 void
 DisassemblerLLVM::GetPluginCommandHelp (const char *command, Stream *strm)
 {
 }

 Error
 DisassemblerLLVM::ExecutePluginCommand (Args &command, Stream *strm)
 {
     Error error;
     error.SetErrorString("No plug-in command are currently supported.");
     return error;
 }

 Log *
 DisassemblerLLVM::EnablePluginLogging (Stream *strm, Args &command)
 {
     return NULL;
 }
	//===-- DisassemblerLLVM.cpp ------------------------------------- C++ --===//
	//
	// The LLVM Compiler Infrastructure
	//
	// This file is distributed under the University of Illinois Open Source
	// License. See LICENSE.TXT for details.
	//
	//===----------------------------------------------------------------------===//

	#include "DisassemblerLLVM.h"

	#include "llvm-c/EnhancedDisassembly.h"

	#include "lldb/Core/Address.h"
	#include "lldb/Core/DataExtractor.h"
	#include "lldb/Core/Disassembler.h"
	#include "lldb/Core/Module.h"
	#include "lldb/Core/PluginManager.h"
	#include "lldb/Core/Stream.h"
	#include "lldb/Core/StreamString.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 <memory>
	#include <string>

	using namespace lldb;
	using namespace lldb_private;


	static
	int DataExtractorByteReader(uint8_t byte, uint64_t address, void arg)
	{
	DataExtractor &extractor = ((DataExtractor )arg);

	if (extractor.ValidOffset(address))
	{
	byte = (extractor.GetDataStart() + address);
	return 0;
	}
	else
	{
	return -1;
	}
	}

	namespace {
	struct RegisterReaderArg {
	const lldb::addr_t instructionPointer;
	const EDDisassemblerRef disassembler;

	RegisterReaderArg(lldb::addr_t ip,
	EDDisassemblerRef dis) :
	instructionPointer(ip),
	disassembler(dis)
	{
	}
	};
	}

	static int IPRegisterReader(uint64_t value, unsigned regID, void arg)
	{
	uint64_t instructionPointer = ((RegisterReaderArg*)arg)->instructionPointer;
	EDDisassemblerRef disassembler = ((RegisterReaderArg*)arg)->disassembler;

	if(EDRegisterIsProgramCounter(disassembler, regID)) {
	*value = instructionPointer;
	return 0;
	}

	return -1;
	}

	DisassemblerLLVM::Instruction::Instruction(EDDisassemblerRef disassembler) :
	Disassembler::Instruction (),
	m_disassembler (disassembler)
	{
	}

	DisassemblerLLVM::Instruction::~Instruction()
	{
	}

	static void
	PadString(Stream *s, const std::string &str, size_t width)
	{
	int diff = width - str.length();

	if (diff > 0)
	s->Printf("%s%.s", str.c_str(), diff, diff, "");
	else
	s->Printf("%s ", str.c_str());
	}

	void
	DisassemblerLLVM::Instruction::Dump
	(
	Stream *s,
	lldb_private::Address *inst_addr_ptr,
	const DataExtractor *bytes,
	uint32_t bytes_offset,
	const lldb_private::ExecutionContext& exe_ctx,
	bool raw
	)
	{
	const size_t opcodeColumnWidth = 7;
	const size_t operandColumnWidth = 25;

	ExecutionContextScope *exe_scope = exe_ctx.GetBestExecutionContextScope();
	// If we have an address, print it out
	if (inst_addr_ptr)
	{
	if (inst_addr_ptr->Dump (s,
	exe_scope,
	Address::DumpStyleLoadAddress,
	Address::DumpStyleModuleWithFileAddress,
	0))
	s->PutCString(": ");
	}

	// If we are supposed to show bytes, "bytes" will be non-NULL.
	if (bytes)
	{
	uint32_t bytes_dumped = bytes->Dump(s, bytes_offset, eFormatBytes, 1, EDInstByteSize(m_inst), UINT32_MAX, LLDB_INVALID_ADDRESS, 0, 0) - bytes_offset;
	// Allow for 8 bytes of opcodes normally
	const uint32_t default_num_opcode_bytes = 9;
	if (bytes_dumped * 3 < (default_num_opcode_bytes*3))
	{
	uint32_t indent_level = (default_num_opcode_bytes3) - (bytes_dumped 3);
	s->Printf("%.s", indent_level, indent_level, "");
	}
	}

	int numTokens = EDNumTokens(m_inst);

	int currentOpIndex = -1;

	lldb_private::Process *process = exe_ctx.process;
	addr_t base_addr = LLDB_INVALID_ADDRESS;
	if (process && process->IsAlive())
	base_addr = inst_addr_ptr->GetLoadAddress (process);
	if (base_addr == LLDB_INVALID_ADDRESS)
	base_addr = inst_addr_ptr->GetFileAddress ();

	RegisterReaderArg rra(base_addr + EDInstByteSize(m_inst), m_disassembler);


	bool printTokenized = false;

	if (numTokens != -1)
	{
	printTokenized = true;

	// Handle the opcode column.

	StreamString opcode;

	int tokenIndex = 0;

	EDTokenRef token;
	const char *tokenStr;

	if (EDGetToken(&token, m_inst, tokenIndex))
	printTokenized = false;

	if (!printTokenized \|\| !EDTokenIsOpcode(token))
	printTokenized = false;

	if (!printTokenized \|\| EDGetTokenString(&tokenStr, token))
	printTokenized = false;

	// Put the token string into our opcode string
	opcode.PutCString(tokenStr);

	// If anything follows, it probably starts with some whitespace. Skip it.

	tokenIndex++;

	if (printTokenized && tokenIndex < numTokens)
	{
	if(!printTokenized \|\| EDGetToken(&token, m_inst, tokenIndex))
	printTokenized = false;

	if(!printTokenized \|\| !EDTokenIsWhitespace(token))
	printTokenized = false;
	}

	tokenIndex++;

	// Handle the operands and the comment.

	StreamString operands;
	StreamString comment;

	if (printTokenized)
	{
	bool show_token;

	for (; tokenIndex < numTokens; ++tokenIndex)
	{
	if (EDGetToken(&token, m_inst, tokenIndex))
	return;

	if (raw)
	{
	show_token = true;
	}
	else
	{
	int operandIndex = EDOperandIndexForToken(token);

	if (operandIndex >= 0)
	{
	if (operandIndex != currentOpIndex)
	{
	show_token = true;

	currentOpIndex = operandIndex;
	EDOperandRef operand;

	if (!EDGetOperand(&operand, m_inst, currentOpIndex))
	{
	if (EDOperandIsMemory(operand))
	{
	uint64_t operand_value;

	if (!EDEvaluateOperand(&operand_value, operand, IPRegisterReader, &rra))
	{
	if (EDInstIsBranch(m_inst))
	{
	operands.Printf("0x%llx ", operand_value);
	show_token = false;
	}
	else
	{
	// Put the address value into the comment
	comment.Printf("0x%llx ", operand_value);
	}

	lldb_private::Address so_addr;
	if (process && process->IsAlive())
	{
	if (process->ResolveLoadAddress (operand_value, so_addr))
	so_addr.Dump(&comment, exe_scope, Address::DumpStyleResolvedDescriptionNoModule, Address::DumpStyleSectionNameOffset);
	}
	else if (inst_addr_ptr)
	{
	Module *module = inst_addr_ptr->GetModule();
	if (module)
	{
	if (module->ResolveFileAddress (operand_value, so_addr))
	so_addr.Dump(&comment, exe_scope, Address::DumpStyleResolvedDescriptionNoModule, Address::DumpStyleSectionNameOffset);
	}
	}

	} // EDEvaluateOperand
	} // EDOperandIsMemory
	} // EDGetOperand
	} // operandIndex != currentOpIndex
	} // operandIndex >= 0
	} // else(raw)

	if (show_token)
	{
	if(EDGetTokenString(&tokenStr, token))
	{
	printTokenized = false;
	break;
	}

	operands.PutCString(tokenStr);
	}
	} // for (tokenIndex)

	if (printTokenized)
	{
	if (operands.GetString().empty())
	{
	s->PutCString(opcode.GetString().c_str());
	}
	else
	{
	PadString(s, opcode.GetString(), opcodeColumnWidth);

	if (comment.GetString().empty())
	{
	s->PutCString(operands.GetString().c_str());
	}
	else
	{
	PadString(s, operands.GetString(), operandColumnWidth);

	s->PutCString("; ");
	s->PutCString(comment.GetString().c_str());
	} // else (comment.GetString().empty())
	} // else (operands.GetString().empty())
	} // printTokenized
	} // for (tokenIndex)
	} // numTokens != -1

	if (!printTokenized)
	{
	const char *str;

	if (EDGetInstString(&str, m_inst))
	return;
	else
	s->PutCString(str);
	}
	}

	bool
	DisassemblerLLVM::Instruction::DoesBranch() const
	{
	return EDInstIsBranch(m_inst);
	}

	size_t
	DisassemblerLLVM::Instruction::GetByteSize() const
	{
	return EDInstByteSize(m_inst);
	}

	size_t
	DisassemblerLLVM::Instruction::Extract(const DataExtractor &data, uint32_t data_offset)
	{
	if (EDCreateInsts(&m_inst, 1, m_disassembler, DataExtractorByteReader, data_offset, (void*)(&data)))
	return EDInstByteSize(m_inst);
	else
	return 0;
	}

	static inline const char *
	TripleForArchSpec (const ArchSpec &arch, char *triple, size_t triple_len)
	{
	const char *arch_name = arch.AsCString();

	if (arch_name)
	{
	snprintf(triple, triple_len, "%s-unknown-unknown", arch_name);
	return triple;
	}
	return NULL;
	}

	static inline EDAssemblySyntax_t
	SyntaxForArchSpec (const ArchSpec &arch)
	{
	const char *arch_name = arch.AsCString();

	if (arch_name != NULL &&
	((strcasestr (arch_name, "i386") == arch_name) \|\|
	(strcasestr (arch_name, "x86_64") == arch_name)))
	return kEDAssemblySyntaxX86ATT;

	return (EDAssemblySyntax_t)0; // default
	}

	Disassembler *
	DisassemblerLLVM::CreateInstance(const ArchSpec &arch)
	{
	char triple[256];

	if (TripleForArchSpec (arch, triple, sizeof(triple)))
	return new DisassemblerLLVM(arch);
	return NULL;
	}

	DisassemblerLLVM::DisassemblerLLVM(const ArchSpec &arch) :
	Disassembler(arch)
	{
	char triple[256];
	if (TripleForArchSpec (arch, triple, sizeof(triple)))
	{
	assert(!EDGetDisassembler(&m_disassembler, triple, SyntaxForArchSpec (arch)) && "No disassembler created!");
	}
	}

	DisassemblerLLVM::~DisassemblerLLVM()
	{
	}

	size_t
	DisassemblerLLVM::DecodeInstructions
	(
	const DataExtractor& data,
	uint32_t data_offset,
	uint32_t num_instructions
	)
	{
	size_t total_inst_byte_size = 0;

	m_instruction_list.Clear();

	while (data.ValidOffset(data_offset) && num_instructions)
	{
	Instruction::shared_ptr inst_sp (new Instruction(m_disassembler));

	size_t inst_byte_size = inst_sp->Extract(data, data_offset);

	if (inst_byte_size == 0)
	break;

	m_instruction_list.AppendInstruction(inst_sp);

	total_inst_byte_size += inst_byte_size;
	data_offset += inst_byte_size;
	num_instructions--;
	}

	return total_inst_byte_size;
	}

	void
	DisassemblerLLVM::Initialize()
	{
	PluginManager::RegisterPlugin (GetPluginNameStatic(),
	GetPluginDescriptionStatic(),
	CreateInstance);
	}

	void
	DisassemblerLLVM::Terminate()
	{
	PluginManager::UnregisterPlugin (CreateInstance);
	}


	const char *
	DisassemblerLLVM::GetPluginNameStatic()
	{
	return "disassembler.llvm";
	}

	const char *
	DisassemblerLLVM::GetPluginDescriptionStatic()
	{
	return "Disassembler that uses LLVM opcode tables to disassemble i386 and x86_64.";
	}

	//------------------------------------------------------------------
	// PluginInterface protocol
	//------------------------------------------------------------------
	const char *
	DisassemblerLLVM::GetPluginName()
	{
	return "DisassemblerLLVM";
	}

	const char *
	DisassemblerLLVM::GetShortPluginName()
	{
	return GetPluginNameStatic();
	}

	uint32_t
	DisassemblerLLVM::GetPluginVersion()
	{
	return 1;
	}

	void
	DisassemblerLLVM::GetPluginCommandHelp (const char command, Stream strm)
	{
	}

	Error
	DisassemblerLLVM::ExecutePluginCommand (Args &command, Stream *strm)
	{
	Error error;
	error.SetErrorString("No plug-in command are currently supported.");
	return error;
	}

	Log *
	DisassemblerLLVM::EnablePluginLogging (Stream *strm, Args &command)
	{
	return NULL;
	}