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llvm-project/lldb/source/Core/Value.cpp
Enrico Granata 1cd5e921e1 Preparatory infrastructural work to support dynamically determining sizes of ObjC types via the runtime 
This is necessary because the byte size of an ObjC class type is not reliably statically knowable (e.g. because superclasses sit deep in frameworks that we have no debug info for)
The lack of reliable size info is a problem when trying to freeze-dry an ObjC instance (not the pointer, the pointee)

This commit lays the foundation for having language runtimes help in figuring out byte sizes, and having ClangASTType ask for runtime help
No feature change as no runtime actually implements the logic, and nowhere is an ExecutionContext passed in yet

llvm-svn: 227274
2015-01-28 00:07:51 +00:00

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//===-- Value.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/Core/Value.h"
// C Includes
// C++ Includes
// Other libraries and framework includes
// Project includes
#include "lldb/Core/DataExtractor.h"
#include "lldb/Core/DataBufferHeap.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/State.h"
#include "lldb/Core/Stream.h"
#include "lldb/Symbol/ClangASTType.h"
#include "lldb/Symbol/ClangASTContext.h"
#include "lldb/Symbol/ObjectFile.h"
#include "lldb/Symbol/SymbolContext.h"
#include "lldb/Symbol/Type.h"
#include "lldb/Symbol/Variable.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/Process.h"
#include "lldb/Target/SectionLoadList.h"
#include "lldb/Target/Target.h"
using namespace lldb;
using namespace lldb_private;
Value::Value() :
m_value (),
m_vector (),
m_clang_type (),
m_context (NULL),
m_value_type (eValueTypeScalar),
m_context_type (eContextTypeInvalid),
m_data_buffer ()
{
}
Value::Value(const Scalar& scalar) :
m_value (scalar),
m_vector (),
m_clang_type (),
m_context (NULL),
m_value_type (eValueTypeScalar),
m_context_type (eContextTypeInvalid),
m_data_buffer ()
{
}
Value::Value(const void *bytes, int len) :
m_value (),
m_vector (),
m_clang_type (),
m_context (NULL),
m_value_type (eValueTypeHostAddress),
m_context_type (eContextTypeInvalid),
m_data_buffer ()
{
SetBytes(bytes, len);
}
Value::Value(const Value &v) :
m_value (v.m_value),
m_vector (v.m_vector),
m_clang_type (v.m_clang_type),
m_context (v.m_context),
m_value_type (v.m_value_type),
m_context_type (v.m_context_type),
m_data_buffer ()
{
const uintptr_t rhs_value = (uintptr_t)v.m_value.ULongLong(LLDB_INVALID_ADDRESS);
if ((rhs_value != 0) && (rhs_value == (uintptr_t)v.m_data_buffer.GetBytes()))
{
m_data_buffer.CopyData(v.m_data_buffer.GetBytes(),
v.m_data_buffer.GetByteSize());
m_value = (uintptr_t)m_data_buffer.GetBytes();
}
}
Value &
Value::operator=(const Value &rhs)
{
if (this != &rhs)
{
m_value = rhs.m_value;
m_vector = rhs.m_vector;
m_clang_type = rhs.m_clang_type;
m_context = rhs.m_context;
m_value_type = rhs.m_value_type;
m_context_type = rhs.m_context_type;
const uintptr_t rhs_value = (uintptr_t)rhs.m_value.ULongLong(LLDB_INVALID_ADDRESS);
if ((rhs_value != 0) && (rhs_value == (uintptr_t)rhs.m_data_buffer.GetBytes()))
{
m_data_buffer.CopyData(rhs.m_data_buffer.GetBytes(),
rhs.m_data_buffer.GetByteSize());
m_value = (uintptr_t)m_data_buffer.GetBytes();
}
}
return *this;
}
void
Value::SetBytes (const void *bytes, int len)
{
m_value_type = eValueTypeHostAddress;
m_data_buffer.CopyData(bytes, len);
m_value = (uintptr_t)m_data_buffer.GetBytes();
}
void
Value::AppendBytes (const void *bytes, int len)
{
m_value_type = eValueTypeHostAddress;
m_data_buffer.AppendData (bytes, len);
m_value = (uintptr_t)m_data_buffer.GetBytes();
}
void
Value::Dump (Stream* strm)
{
m_value.GetValue (strm, true);
strm->Printf(", value_type = %s, context = %p, context_type = %s",
Value::GetValueTypeAsCString(m_value_type),
m_context,
Value::GetContextTypeAsCString(m_context_type));
}
Value::ValueType
Value::GetValueType() const
{
return m_value_type;
}
AddressType
Value::GetValueAddressType () const
{
switch (m_value_type)
{
default:
case eValueTypeScalar:
break;
case eValueTypeLoadAddress: return eAddressTypeLoad;
case eValueTypeFileAddress: return eAddressTypeFile;
case eValueTypeHostAddress: return eAddressTypeHost;
}
return eAddressTypeInvalid;
}
RegisterInfo *
Value::GetRegisterInfo() const
{
if (m_context_type == eContextTypeRegisterInfo)
return static_cast<RegisterInfo *> (m_context);
return NULL;
}
Type *
Value::GetType()
{
if (m_context_type == eContextTypeLLDBType)
return static_cast<Type *> (m_context);
return NULL;
}
size_t
Value::AppendDataToHostBuffer (const Value &rhs)
{
size_t curr_size = m_data_buffer.GetByteSize();
Error error;
switch (rhs.GetValueType())
{
case eValueTypeScalar:
{
const size_t scalar_size = rhs.m_value.GetByteSize();
if (scalar_size > 0)
{
const size_t new_size = curr_size + scalar_size;
if (ResizeData(new_size) == new_size)
{
rhs.m_value.GetAsMemoryData (m_data_buffer.GetBytes() + curr_size,
scalar_size,
lldb::endian::InlHostByteOrder(),
error);
return scalar_size;
}
}
}
break;
case eValueTypeVector:
{
const size_t vector_size = rhs.m_vector.length;
if (vector_size > 0)
{
const size_t new_size = curr_size + vector_size;
if (ResizeData(new_size) == new_size)
{
::memcpy (m_data_buffer.GetBytes() + curr_size,
rhs.m_vector.bytes,
vector_size);
return vector_size;
}
}
}
break;
case eValueTypeFileAddress:
case eValueTypeLoadAddress:
case eValueTypeHostAddress:
{
const uint8_t *src = rhs.GetBuffer().GetBytes();
const size_t src_len = rhs.GetBuffer().GetByteSize();
if (src && src_len > 0)
{
const size_t new_size = curr_size + src_len;
if (ResizeData(new_size) == new_size)
{
::memcpy (m_data_buffer.GetBytes() + curr_size, src, src_len);
return src_len;
}
}
}
break;
}
return 0;
}
size_t
Value::ResizeData(size_t len)
{
m_value_type = eValueTypeHostAddress;
m_data_buffer.SetByteSize(len);
m_value = (uintptr_t)m_data_buffer.GetBytes();
return m_data_buffer.GetByteSize();
}
bool
Value::ValueOf(ExecutionContext *exe_ctx)
{
switch (m_context_type)
{
case eContextTypeInvalid:
case eContextTypeRegisterInfo: // RegisterInfo *
case eContextTypeLLDBType: // Type *
break;
case eContextTypeVariable: // Variable *
ResolveValue(exe_ctx);
return true;
}
return false;
}
uint64_t
Value::GetValueByteSize (Error *error_ptr)
{
uint64_t byte_size = 0;
switch (m_context_type)
{
case eContextTypeRegisterInfo: // RegisterInfo *
if (GetRegisterInfo())
byte_size = GetRegisterInfo()->byte_size;
break;
case eContextTypeInvalid:
case eContextTypeLLDBType: // Type *
case eContextTypeVariable: // Variable *
{
const ClangASTType &ast_type = GetClangType();
if (ast_type.IsValid())
byte_size = ast_type.GetByteSize(nullptr);
}
break;
}
if (error_ptr)
{
if (byte_size == 0)
{
if (error_ptr->Success())
error_ptr->SetErrorString("Unable to determine byte size.");
}
else
{
error_ptr->Clear();
}
}
return byte_size;
}
const ClangASTType &
Value::GetClangType ()
{
if (!m_clang_type.IsValid())
{
switch (m_context_type)
{
case eContextTypeInvalid:
break;
case eContextTypeRegisterInfo:
break; // TODO: Eventually convert into a clang type?
case eContextTypeLLDBType:
{
Type *lldb_type = GetType();
if (lldb_type)
m_clang_type = lldb_type->GetClangForwardType();
}
break;
case eContextTypeVariable:
{
Variable *variable = GetVariable();
if (variable)
{
Type *variable_type = variable->GetType();
if (variable_type)
m_clang_type = variable_type->GetClangForwardType();
}
}
break;
}
}
return m_clang_type;
}
void
Value::SetClangType (const ClangASTType &clang_type)
{
m_clang_type = clang_type;
}
lldb::Format
Value::GetValueDefaultFormat ()
{
switch (m_context_type)
{
case eContextTypeRegisterInfo:
if (GetRegisterInfo())
return GetRegisterInfo()->format;
break;
case eContextTypeInvalid:
case eContextTypeLLDBType:
case eContextTypeVariable:
{
const ClangASTType &ast_type = GetClangType();
if (ast_type.IsValid())
return ast_type.GetFormat();
}
break;
}
// Return a good default in case we can't figure anything out
return eFormatHex;
}
bool
Value::GetData (DataExtractor &data)
{
switch (m_value_type)
{
default:
break;
case eValueTypeScalar:
if (m_value.GetData (data))
return true;
break;
case eValueTypeLoadAddress:
case eValueTypeFileAddress:
case eValueTypeHostAddress:
if (m_data_buffer.GetByteSize())
{
data.SetData(m_data_buffer.GetBytes(), m_data_buffer.GetByteSize(), data.GetByteOrder());
return true;
}
break;
}
return false;
}
Error
Value::GetValueAsData (ExecutionContext *exe_ctx,
DataExtractor &data,
uint32_t data_offset,
Module *module)
{
data.Clear();
Error error;
lldb::addr_t address = LLDB_INVALID_ADDRESS;
AddressType address_type = eAddressTypeFile;
Address file_so_addr;
const ClangASTType &ast_type = GetClangType();
switch (m_value_type)
{
case eValueTypeVector:
if (ast_type.IsValid())
data.SetAddressByteSize (ast_type.GetPointerByteSize());
else
data.SetAddressByteSize(sizeof(void *));
data.SetData(m_vector.bytes, m_vector.length, m_vector.byte_order);
break;
case eValueTypeScalar:
{
data.SetByteOrder (lldb::endian::InlHostByteOrder());
if (ast_type.IsValid())
data.SetAddressByteSize (ast_type.GetPointerByteSize());
else
data.SetAddressByteSize(sizeof(void *));
uint32_t limit_byte_size = UINT32_MAX;
if (ast_type.IsValid() && ast_type.IsScalarType())
{
uint64_t type_encoding_count = 0;
lldb::Encoding type_encoding = ast_type.GetEncoding(type_encoding_count);
if (type_encoding == eEncodingUint || type_encoding == eEncodingSint)
limit_byte_size = ast_type.GetByteSize(nullptr);
}
if (m_value.GetData (data, limit_byte_size))
return error; // Success;
error.SetErrorStringWithFormat("extracting data from value failed");
break;
}
case eValueTypeLoadAddress:
if (exe_ctx == NULL)
{
error.SetErrorString ("can't read load address (no execution context)");
}
else
{
Process *process = exe_ctx->GetProcessPtr();
if (process == NULL || !process->IsAlive())
{
Target *target = exe_ctx->GetTargetPtr();
if (target)
{
// Allow expressions to run and evaluate things when the target
// has memory sections loaded. This allows you to use "target modules load"
// to load your executable and any shared libraries, then execute
// commands where you can look at types in data sections.
const SectionLoadList &target_sections = target->GetSectionLoadList();
if (!target_sections.IsEmpty())
{
address = m_value.ULongLong(LLDB_INVALID_ADDRESS);
if (target_sections.ResolveLoadAddress(address, file_so_addr))
{
address_type = eAddressTypeLoad;
data.SetByteOrder(target->GetArchitecture().GetByteOrder());
data.SetAddressByteSize(target->GetArchitecture().GetAddressByteSize());
}
else
address = LLDB_INVALID_ADDRESS;
}
// else
// {
// ModuleSP exe_module_sp (target->GetExecutableModule());
// if (exe_module_sp)
// {
// address = m_value.ULongLong(LLDB_INVALID_ADDRESS);
// if (address != LLDB_INVALID_ADDRESS)
// {
// if (exe_module_sp->ResolveFileAddress(address, file_so_addr))
// {
// data.SetByteOrder(target->GetArchitecture().GetByteOrder());
// data.SetAddressByteSize(target->GetArchitecture().GetAddressByteSize());
// address_type = eAddressTypeFile;
// }
// else
// {
// address = LLDB_INVALID_ADDRESS;
// }
// }
// }
// }
}
else
{
error.SetErrorString ("can't read load address (invalid process)");
}
}
else
{
address = m_value.ULongLong(LLDB_INVALID_ADDRESS);
address_type = eAddressTypeLoad;
data.SetByteOrder(process->GetTarget().GetArchitecture().GetByteOrder());
data.SetAddressByteSize(process->GetTarget().GetArchitecture().GetAddressByteSize());
}
}
break;
case eValueTypeFileAddress:
if (exe_ctx == NULL)
{
error.SetErrorString ("can't read file address (no execution context)");
}
else if (exe_ctx->GetTargetPtr() == NULL)
{
error.SetErrorString ("can't read file address (invalid target)");
}
else
{
address = m_value.ULongLong(LLDB_INVALID_ADDRESS);
if (address == LLDB_INVALID_ADDRESS)
{
error.SetErrorString ("invalid file address");
}
else
{
if (module == NULL)
{
// The only thing we can currently lock down to a module so that
// we can resolve a file address, is a variable.
Variable *variable = GetVariable();
if (variable)
{
SymbolContext var_sc;
variable->CalculateSymbolContext(&var_sc);
module = var_sc.module_sp.get();
}
}
if (module)
{
bool resolved = false;
ObjectFile *objfile = module->GetObjectFile();
if (objfile)
{
Address so_addr(address, objfile->GetSectionList());
addr_t load_address = so_addr.GetLoadAddress (exe_ctx->GetTargetPtr());
bool process_launched_and_stopped = exe_ctx->GetProcessPtr()
? StateIsStoppedState(exe_ctx->GetProcessPtr()->GetState(), true /* must_exist */)
: false;
// Don't use the load address if the process has exited.
if (load_address != LLDB_INVALID_ADDRESS && process_launched_and_stopped)
{
resolved = true;
address = load_address;
address_type = eAddressTypeLoad;
data.SetByteOrder(exe_ctx->GetTargetRef().GetArchitecture().GetByteOrder());
data.SetAddressByteSize(exe_ctx->GetTargetRef().GetArchitecture().GetAddressByteSize());
}
else
{
if (so_addr.IsSectionOffset())
{
resolved = true;
file_so_addr = so_addr;
data.SetByteOrder(objfile->GetByteOrder());
data.SetAddressByteSize(objfile->GetAddressByteSize());
}
}
}
if (!resolved)
{
Variable *variable = GetVariable();
if (module)
{
if (variable)
error.SetErrorStringWithFormat ("unable to resolve the module for file address 0x%" PRIx64 " for variable '%s' in %s",
address,
variable->GetName().AsCString(""),
module->GetFileSpec().GetPath().c_str());
else
error.SetErrorStringWithFormat ("unable to resolve the module for file address 0x%" PRIx64 " in %s",
address,
module->GetFileSpec().GetPath().c_str());
}
else
{
if (variable)
error.SetErrorStringWithFormat ("unable to resolve the module for file address 0x%" PRIx64 " for variable '%s'",
address,
variable->GetName().AsCString(""));
else
error.SetErrorStringWithFormat ("unable to resolve the module for file address 0x%" PRIx64, address);
}
}
}
else
{
// Can't convert a file address to anything valid without more
// context (which Module it came from)
error.SetErrorString ("can't read memory from file address without more context");
}
}
}
break;
case eValueTypeHostAddress:
address = m_value.ULongLong(LLDB_INVALID_ADDRESS);
address_type = eAddressTypeHost;
if (exe_ctx)
{
Target *target = exe_ctx->GetTargetPtr();
if (target)
{
data.SetByteOrder(target->GetArchitecture().GetByteOrder());
data.SetAddressByteSize(target->GetArchitecture().GetAddressByteSize());
break;
}
}
// fallback to host settings
data.SetByteOrder(lldb::endian::InlHostByteOrder());
data.SetAddressByteSize(sizeof(void *));
break;
}
// Bail if we encountered any errors
if (error.Fail())
return error;
if (address == LLDB_INVALID_ADDRESS)
{
error.SetErrorStringWithFormat ("invalid %s address", address_type == eAddressTypeHost ? "host" : "load");
return error;
}
// If we got here, we need to read the value from memory
size_t byte_size = GetValueByteSize (&error);
// Bail if we encountered any errors getting the byte size
if (error.Fail())
return error;
// Make sure we have enough room within "data", and if we don't make
// something large enough that does
if (!data.ValidOffsetForDataOfSize (data_offset, byte_size))
{
DataBufferSP data_sp(new DataBufferHeap (data_offset + byte_size, '\0'));
data.SetData(data_sp);
}
uint8_t* dst = const_cast<uint8_t*>(data.PeekData (data_offset, byte_size));
if (dst != NULL)
{
if (address_type == eAddressTypeHost)
{
// The address is an address in this process, so just copy it.
if (address == 0)
{
error.SetErrorStringWithFormat("trying to read from host address of 0.");
return error;
}
memcpy (dst, (uint8_t*)NULL + address, byte_size);
}
else if ((address_type == eAddressTypeLoad) || (address_type == eAddressTypeFile))
{
if (file_so_addr.IsValid())
{
// We have a file address that we were able to translate into a
// section offset address so we might be able to read this from
// the object files if we don't have a live process. Lets always
// try and read from the process if we have one though since we
// want to read the actual value by setting "prefer_file_cache"
// to false.
const bool prefer_file_cache = false;
if (exe_ctx->GetTargetRef().ReadMemory(file_so_addr, prefer_file_cache, dst, byte_size, error) != byte_size)
{
error.SetErrorStringWithFormat("read memory from 0x%" PRIx64 " failed", (uint64_t)address);
}
}
else
{
// The execution context might have a NULL process, but it
// might have a valid process in the exe_ctx->target, so use
// the ExecutionContext::GetProcess accessor to ensure we
// get the process if there is one.
Process *process = exe_ctx->GetProcessPtr();
if (process)
{
const size_t bytes_read = process->ReadMemory(address, dst, byte_size, error);
if (bytes_read != byte_size)
error.SetErrorStringWithFormat("read memory from 0x%" PRIx64 " failed (%u of %u bytes read)",
(uint64_t)address,
(uint32_t)bytes_read,
(uint32_t)byte_size);
}
else
{
error.SetErrorStringWithFormat("read memory from 0x%" PRIx64 " failed (invalid process)", (uint64_t)address);
}
}
}
else
{
error.SetErrorStringWithFormat ("unsupported AddressType value (%i)", address_type);
}
}
else
{
error.SetErrorStringWithFormat ("out of memory");
}
return error;
}
Scalar &
Value::ResolveValue(ExecutionContext *exe_ctx)
{
const ClangASTType &clang_type = GetClangType();
if (clang_type.IsValid())
{
switch (m_value_type)
{
case eValueTypeScalar: // raw scalar value
break;
default:
case eValueTypeFileAddress:
case eValueTypeLoadAddress: // load address value
case eValueTypeHostAddress: // host address value (for memory in the process that is using liblldb)
{
DataExtractor data;
lldb::addr_t addr = m_value.ULongLong(LLDB_INVALID_ADDRESS);
Error error (GetValueAsData (exe_ctx, data, 0, NULL));
if (error.Success())
{
Scalar scalar;
if (clang_type.GetValueAsScalar (data, 0, data.GetByteSize(), scalar))
{
m_value = scalar;
m_value_type = eValueTypeScalar;
}
else
{
if ((uintptr_t)addr != (uintptr_t)m_data_buffer.GetBytes())
{
m_value.Clear();
m_value_type = eValueTypeScalar;
}
}
}
else
{
if ((uintptr_t)addr != (uintptr_t)m_data_buffer.GetBytes())
{
m_value.Clear();
m_value_type = eValueTypeScalar;
}
}
}
break;
}
}
return m_value;
}
Variable *
Value::GetVariable()
{
if (m_context_type == eContextTypeVariable)
return static_cast<Variable *> (m_context);
return NULL;
}
void
Value::Clear()
{
m_value.Clear();
m_vector.Clear();
m_clang_type.Clear();
m_value_type = eValueTypeScalar;
m_context = NULL;
m_context_type = eContextTypeInvalid;
m_data_buffer.Clear();
}
const char *
Value::GetValueTypeAsCString (ValueType value_type)
{
switch (value_type)
{
case eValueTypeScalar: return "scalar";
case eValueTypeVector: return "vector";
case eValueTypeFileAddress: return "file address";
case eValueTypeLoadAddress: return "load address";
case eValueTypeHostAddress: return "host address";
};
return "???";
}
const char *
Value::GetContextTypeAsCString (ContextType context_type)
{
switch (context_type)
{
case eContextTypeInvalid: return "invalid";
case eContextTypeRegisterInfo: return "RegisterInfo *";
case eContextTypeLLDBType: return "Type *";
case eContextTypeVariable: return "Variable *";
};
return "???";
}
ValueList::ValueList (const ValueList &rhs)
{
m_values = rhs.m_values;
}
const ValueList &
ValueList::operator= (const ValueList &rhs)
{
m_values = rhs.m_values;
return *this;
}
void
ValueList::PushValue (const Value &value)
{
m_values.push_back (value);
}
size_t
ValueList::GetSize()
{
return m_values.size();
}
Value *
ValueList::GetValueAtIndex (size_t idx)
{
if (idx < GetSize())
{
return &(m_values[idx]);
}
else
return NULL;
}
void
ValueList::Clear ()
{
m_values.clear();
}
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