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llvm-project/lldb/source/Target/ThreadPlanTracer.cpp
Greg Clayton ba812f4284 <rdar://problem/11330621> 
Fixed the DisassemblerLLVMC disassembler to parse more efficiently instead of parsing opcodes over and over. The InstructionLLVMC class now only reads the opcode in the InstructionLLVMC::Decode function. This can be done very efficiently for ARM and architectures that have fixed opcode sizes. For x64 it still calls the disassembler to get the byte size.

Moved the lldb_private::Instruction::Dump(...) function up into the lldb_private::Instruction class and it now uses the function that gets the mnemonic, operandes and comments so that all disassembly is using the same code.

Added StreamString::FillLastLineToColumn() to allow filling a line up to a column with a character (which is used by the lldb_private::Instruction::Dump(...) function).

Modified the Opcode::GetData() fucntion to "do the right thing" for thumb instructions.

llvm-svn: 156532
2012-05-10 02:52:23 +00:00

280 lines
7.9 KiB
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//===-- ThreadPlan.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/Target/ThreadPlan.h"
// C Includes
#include <string.h>
// C++ Includes
// Other libraries and framework includes
// Project includes
#include "lldb/Core/ArchSpec.h"
#include "lldb/Core/DataBufferHeap.h"
#include "lldb/Core/Debugger.h"
#include "lldb/Core/Disassembler.h"
#include "lldb/Core/Log.h"
#include "lldb/Core/State.h"
#include "lldb/Core/Value.h"
#include "lldb/Symbol/TypeList.h"
#include "lldb/Target/RegisterContext.h"
#include "lldb/Target/Thread.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/Target.h"
using namespace lldb;
using namespace lldb_private;
#pragma mark ThreadPlanTracer
ThreadPlanTracer::ThreadPlanTracer (Thread &thread, lldb::StreamSP &stream_sp) :
m_thread (thread),
m_single_step(true),
m_enabled (false),
m_stream_sp (stream_sp)
{
}
ThreadPlanTracer::ThreadPlanTracer (Thread &thread) :
m_thread (thread),
m_single_step(true),
m_enabled (false),
m_stream_sp ()
{
}
Stream *
ThreadPlanTracer::GetLogStream ()
{
if (m_stream_sp.get())
return m_stream_sp.get();
else
{
TargetSP target_sp (m_thread.CalculateTarget());
if (target_sp)
return &target_sp->GetDebugger().GetOutputStream();
}
return NULL;
}
void
ThreadPlanTracer::Log()
{
SymbolContext sc;
bool show_frame_index = false;
bool show_fullpaths = false;
Stream *stream = GetLogStream();
m_thread.GetStackFrameAtIndex(0)->Dump (stream, show_frame_index, show_fullpaths);
stream->Printf("\n");
stream->Flush();
}
bool
ThreadPlanTracer::TracerExplainsStop ()
{
if (m_enabled && m_single_step)
{
lldb::StopInfoSP stop_info = m_thread.GetStopInfo();
if (stop_info->GetStopReason() == eStopReasonTrace)
return true;
else
return false;
}
else
return false;
}
#pragma mark ThreadPlanAssemblyTracer
ThreadPlanAssemblyTracer::ThreadPlanAssemblyTracer (Thread &thread, lldb::StreamSP &stream_sp) :
ThreadPlanTracer (thread, stream_sp),
m_disassembler_ap (),
m_intptr_type (),
m_register_values ()
{
}
ThreadPlanAssemblyTracer::ThreadPlanAssemblyTracer (Thread &thread) :
ThreadPlanTracer (thread),
m_disassembler_ap (),
m_intptr_type (),
m_register_values ()
{
}
Disassembler *
ThreadPlanAssemblyTracer::GetDisassembler ()
{
if (m_disassembler_ap.get() == NULL)
m_disassembler_ap.reset(Disassembler::FindPlugin(m_thread.GetProcess()->GetTarget().GetArchitecture(), NULL));
return m_disassembler_ap.get();
}
TypeFromUser
ThreadPlanAssemblyTracer::GetIntPointerType()
{
if (!m_intptr_type.IsValid ())
{
TargetSP target_sp (m_thread.CalculateTarget());
if (target_sp)
{
Module *exe_module = target_sp->GetExecutableModulePointer();
if (exe_module)
{
m_intptr_type = TypeFromUser(exe_module->GetClangASTContext().GetBuiltinTypeForEncodingAndBitSize(eEncodingUint, target_sp->GetArchitecture().GetAddressByteSize() * 8),
exe_module->GetClangASTContext().getASTContext());
}
}
}
return m_intptr_type;
}
ThreadPlanAssemblyTracer::~ThreadPlanAssemblyTracer()
{
}
void
ThreadPlanAssemblyTracer::TracingStarted ()
{
RegisterContext *reg_ctx = m_thread.GetRegisterContext().get();
if (m_register_values.size() == 0)
m_register_values.resize (reg_ctx->GetRegisterCount());
}
void
ThreadPlanAssemblyTracer::TracingEnded ()
{
m_register_values.clear();
}
static void
PadOutTo (StreamString &stream, int target)
{
stream.Flush();
int length = stream.GetString().length();
if (length + 1 < target)
stream.Printf("%*s", target - (length + 1) + 1, "");
}
void
ThreadPlanAssemblyTracer::Log ()
{
Stream *stream = GetLogStream ();
if (!stream)
return;
RegisterContext *reg_ctx = m_thread.GetRegisterContext().get();
lldb::addr_t pc = reg_ctx->GetPC();
ProcessSP process_sp (m_thread.GetProcess());
Address pc_addr;
bool addr_valid = false;
uint8_t buffer[16] = {0}; // Must be big enough for any single instruction
addr_valid = process_sp->GetTarget().GetSectionLoadList().ResolveLoadAddress (pc, pc_addr);
pc_addr.Dump(stream, &m_thread, Address::DumpStyleResolvedDescription, Address::DumpStyleModuleWithFileAddress);
stream->PutCString (" ");
Disassembler *disassembler = GetDisassembler();
if (disassembler)
{
Error err;
process_sp->ReadMemory(pc, buffer, sizeof(buffer), err);
if (err.Success())
{
DataExtractor extractor(buffer, sizeof(buffer),
process_sp->GetByteOrder(),
process_sp->GetAddressByteSize());
if (addr_valid)
disassembler->DecodeInstructions (pc_addr, extractor, 0, 1, false);
else
disassembler->DecodeInstructions (Address (pc), extractor, 0, 1, false);
InstructionList &instruction_list = disassembler->GetInstructionList();
const uint32_t max_opcode_byte_size = instruction_list.GetMaxOpcocdeByteSize();
if (instruction_list.GetSize())
{
const bool show_bytes = true;
const bool show_address = true;
Instruction *instruction = instruction_list.GetInstructionAtIndex(0).get();
instruction->Dump (stream,
max_opcode_byte_size,
show_address,
show_bytes,
NULL);
}
}
}
const ABI *abi = process_sp->GetABI().get();
TypeFromUser intptr_type = GetIntPointerType();
if (abi && intptr_type.IsValid())
{
ValueList value_list;
const int num_args = 1;
for (int arg_index = 0; arg_index < num_args; ++arg_index)
{
Value value;
value.SetValueType (Value::eValueTypeScalar);
value.SetContext (Value::eContextTypeClangType, intptr_type.GetOpaqueQualType());
value_list.PushValue (value);
}
if (abi->GetArgumentValues (m_thread, value_list))
{
for (int arg_index = 0; arg_index < num_args; ++arg_index)
{
stream->Printf("\n\targ[%d]=%llx", arg_index, value_list.GetValueAtIndex(arg_index)->GetScalar().ULongLong());
if (arg_index + 1 < num_args)
stream->PutCString (", ");
}
}
}
RegisterValue reg_value;
for (uint32_t reg_num = 0, num_registers = reg_ctx->GetRegisterCount();
reg_num < num_registers;
++reg_num)
{
const RegisterInfo *reg_info = reg_ctx->GetRegisterInfoAtIndex(reg_num);
if (reg_ctx->ReadRegister (reg_info, reg_value))
{
assert (reg_num < m_register_values.size());
if (m_register_values[reg_num].GetType() == RegisterValue::eTypeInvalid ||
reg_value != m_register_values[reg_num])
{
if (reg_value.GetType() != RegisterValue::eTypeInvalid)
{
stream->PutCString ("\n\t");
reg_value.Dump(stream, reg_info, true, false, eFormatDefault);
}
}
m_register_values[reg_num] = reg_value;
}
}
stream->EOL();
stream->Flush();
}
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