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clang-p2996/lldb/source/API/SBInstruction.cpp
Michal Gorny ae211ece6a [lldb] [Reproducer] Move SBRegistry registration into declaring files 
Move SBRegistry method registrations from SBReproducer.cpp into files
declaring the individual APIs, in order to reduce the memory consumption
during build and improve maintainability.  The current humongous
SBRegistry constructor exhausts all memory on a NetBSD system with 4G
RAM + 4G swap, therefore making it impossible to build LLDB.

Differential Revision: https://reviews.llvm.org/D59427

llvm-svn: 356481
2019-03-19 17:13:13 +00:00

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//===-- SBInstruction.cpp ---------------------------------------*- C++ -*-===//
//
// Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
// See https://llvm.org/LICENSE.txt for license information.
// SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
//
//===----------------------------------------------------------------------===//
#include "lldb/API/SBInstruction.h"
#include "SBReproducerPrivate.h"
#include "lldb/API/SBAddress.h"
#include "lldb/API/SBFrame.h"
#include "lldb/API/SBInstruction.h"
#include "lldb/API/SBStream.h"
#include "lldb/API/SBTarget.h"
#include "lldb/Core/Disassembler.h"
#include "lldb/Core/EmulateInstruction.h"
#include "lldb/Core/Module.h"
#include "lldb/Core/StreamFile.h"
#include "lldb/Host/HostInfo.h"
#include "lldb/Target/ExecutionContext.h"
#include "lldb/Target/StackFrame.h"
#include "lldb/Target/Target.h"
#include "lldb/Utility/ArchSpec.h"
#include "lldb/Utility/DataBufferHeap.h"
#include "lldb/Utility/DataExtractor.h"
#include <memory>
//----------------------------------------------------------------------
// We recently fixed a leak in one of the Instruction subclasses where the
// instruction will only hold a weak reference to the disassembler to avoid a
// cycle that was keeping both objects alive (leak) and we need the
// InstructionImpl class to make sure our public API behaves as users would
// expect. Calls in our public API allow clients to do things like:
//
// 1 lldb::SBInstruction inst;
// 2 inst = target.ReadInstructions(pc, 1).GetInstructionAtIndex(0)
// 3 if (inst.DoesBranch())
// 4 ...
//
// There was a temporary lldb::DisassemblerSP object created in the
// SBInstructionList that was returned by lldb.target.ReadInstructions() that
// will go away after line 2 but the "inst" object should be able to still
// answer questions about itself. So we make sure that any SBInstruction
// objects that are given out have a strong reference to the disassembler and
// the instruction so that the object can live and successfully respond to all
// queries.
//----------------------------------------------------------------------
class InstructionImpl {
public:
InstructionImpl(const lldb::DisassemblerSP &disasm_sp,
const lldb::InstructionSP &inst_sp)
: m_disasm_sp(disasm_sp), m_inst_sp(inst_sp) {}
lldb::InstructionSP GetSP() const { return m_inst_sp; }
bool IsValid() const { return (bool)m_inst_sp; }
protected:
lldb::DisassemblerSP m_disasm_sp; // Can be empty/invalid
lldb::InstructionSP m_inst_sp;
};
using namespace lldb;
using namespace lldb_private;
SBInstruction::SBInstruction() : m_opaque_sp() {
LLDB_RECORD_CONSTRUCTOR_NO_ARGS(SBInstruction);
}
SBInstruction::SBInstruction(const lldb::DisassemblerSP &disasm_sp,
const lldb::InstructionSP &inst_sp)
: m_opaque_sp(new InstructionImpl(disasm_sp, inst_sp)) {}
SBInstruction::SBInstruction(const SBInstruction &rhs)
: m_opaque_sp(rhs.m_opaque_sp) {
LLDB_RECORD_CONSTRUCTOR(SBInstruction, (const lldb::SBInstruction &), rhs);
}
const SBInstruction &SBInstruction::operator=(const SBInstruction &rhs) {
LLDB_RECORD_METHOD(const lldb::SBInstruction &,
SBInstruction, operator=,(const lldb::SBInstruction &),
rhs);
if (this != &rhs)
m_opaque_sp = rhs.m_opaque_sp;
return *this;
}
SBInstruction::~SBInstruction() {}
bool SBInstruction::IsValid() {
LLDB_RECORD_METHOD_NO_ARGS(bool, SBInstruction, IsValid);
return this->operator bool();
}
SBInstruction::operator bool() const {
LLDB_RECORD_METHOD_CONST_NO_ARGS(bool, SBInstruction, operator bool);
return m_opaque_sp && m_opaque_sp->IsValid();
}
SBAddress SBInstruction::GetAddress() {
LLDB_RECORD_METHOD_NO_ARGS(lldb::SBAddress, SBInstruction, GetAddress);
SBAddress sb_addr;
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp && inst_sp->GetAddress().IsValid())
sb_addr.SetAddress(&inst_sp->GetAddress());
return LLDB_RECORD_RESULT(sb_addr);
}
const char *SBInstruction::GetMnemonic(SBTarget target) {
LLDB_RECORD_METHOD(const char *, SBInstruction, GetMnemonic, (lldb::SBTarget),
target);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
ExecutionContext exe_ctx;
TargetSP target_sp(target.GetSP());
std::unique_lock<std::recursive_mutex> lock;
if (target_sp) {
lock = std::unique_lock<std::recursive_mutex>(target_sp->GetAPIMutex());
target_sp->CalculateExecutionContext(exe_ctx);
exe_ctx.SetProcessSP(target_sp->GetProcessSP());
}
return inst_sp->GetMnemonic(&exe_ctx);
}
return NULL;
}
const char *SBInstruction::GetOperands(SBTarget target) {
LLDB_RECORD_METHOD(const char *, SBInstruction, GetOperands, (lldb::SBTarget),
target);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
ExecutionContext exe_ctx;
TargetSP target_sp(target.GetSP());
std::unique_lock<std::recursive_mutex> lock;
if (target_sp) {
lock = std::unique_lock<std::recursive_mutex>(target_sp->GetAPIMutex());
target_sp->CalculateExecutionContext(exe_ctx);
exe_ctx.SetProcessSP(target_sp->GetProcessSP());
}
return inst_sp->GetOperands(&exe_ctx);
}
return NULL;
}
const char *SBInstruction::GetComment(SBTarget target) {
LLDB_RECORD_METHOD(const char *, SBInstruction, GetComment, (lldb::SBTarget),
target);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
ExecutionContext exe_ctx;
TargetSP target_sp(target.GetSP());
std::unique_lock<std::recursive_mutex> lock;
if (target_sp) {
lock = std::unique_lock<std::recursive_mutex>(target_sp->GetAPIMutex());
target_sp->CalculateExecutionContext(exe_ctx);
exe_ctx.SetProcessSP(target_sp->GetProcessSP());
}
return inst_sp->GetComment(&exe_ctx);
}
return NULL;
}
size_t SBInstruction::GetByteSize() {
LLDB_RECORD_METHOD_NO_ARGS(size_t, SBInstruction, GetByteSize);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp)
return inst_sp->GetOpcode().GetByteSize();
return 0;
}
SBData SBInstruction::GetData(SBTarget target) {
LLDB_RECORD_METHOD(lldb::SBData, SBInstruction, GetData, (lldb::SBTarget),
target);
lldb::SBData sb_data;
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
DataExtractorSP data_extractor_sp(new DataExtractor());
if (inst_sp->GetData(*data_extractor_sp)) {
sb_data.SetOpaque(data_extractor_sp);
}
}
return LLDB_RECORD_RESULT(sb_data);
}
bool SBInstruction::DoesBranch() {
LLDB_RECORD_METHOD_NO_ARGS(bool, SBInstruction, DoesBranch);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp)
return inst_sp->DoesBranch();
return false;
}
bool SBInstruction::HasDelaySlot() {
LLDB_RECORD_METHOD_NO_ARGS(bool, SBInstruction, HasDelaySlot);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp)
return inst_sp->HasDelaySlot();
return false;
}
bool SBInstruction::CanSetBreakpoint() {
LLDB_RECORD_METHOD_NO_ARGS(bool, SBInstruction, CanSetBreakpoint);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp)
return inst_sp->CanSetBreakpoint();
return false;
}
lldb::InstructionSP SBInstruction::GetOpaque() {
if (m_opaque_sp)
return m_opaque_sp->GetSP();
else
return lldb::InstructionSP();
}
void SBInstruction::SetOpaque(const lldb::DisassemblerSP &disasm_sp,
const lldb::InstructionSP &inst_sp) {
m_opaque_sp = std::make_shared<InstructionImpl>(disasm_sp, inst_sp);
}
bool SBInstruction::GetDescription(lldb::SBStream &s) {
LLDB_RECORD_METHOD(bool, SBInstruction, GetDescription, (lldb::SBStream &),
s);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
SymbolContext sc;
const Address &addr = inst_sp->GetAddress();
ModuleSP module_sp(addr.GetModule());
if (module_sp)
module_sp->ResolveSymbolContextForAddress(addr, eSymbolContextEverything,
sc);
// Use the "ref()" instead of the "get()" accessor in case the SBStream
// didn't have a stream already created, one will get created...
FormatEntity::Entry format;
FormatEntity::Parse("${addr}: ", format);
inst_sp->Dump(&s.ref(), 0, true, false, NULL, &sc, NULL, &format, 0);
return true;
}
return false;
}
void SBInstruction::Print(FILE *out) {
LLDB_RECORD_METHOD(void, SBInstruction, Print, (FILE *), out);
if (out == NULL)
return;
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
SymbolContext sc;
const Address &addr = inst_sp->GetAddress();
ModuleSP module_sp(addr.GetModule());
if (module_sp)
module_sp->ResolveSymbolContextForAddress(addr, eSymbolContextEverything,
sc);
StreamFile out_stream(out, false);
FormatEntity::Entry format;
FormatEntity::Parse("${addr}: ", format);
inst_sp->Dump(&out_stream, 0, true, false, NULL, &sc, NULL, &format, 0);
}
}
bool SBInstruction::EmulateWithFrame(lldb::SBFrame &frame,
uint32_t evaluate_options) {
LLDB_RECORD_METHOD(bool, SBInstruction, EmulateWithFrame,
(lldb::SBFrame &, uint32_t), frame, evaluate_options);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp) {
lldb::StackFrameSP frame_sp(frame.GetFrameSP());
if (frame_sp) {
lldb_private::ExecutionContext exe_ctx;
frame_sp->CalculateExecutionContext(exe_ctx);
lldb_private::Target *target = exe_ctx.GetTargetPtr();
lldb_private::ArchSpec arch = target->GetArchitecture();
return inst_sp->Emulate(
arch, evaluate_options, (void *)frame_sp.get(),
&lldb_private::EmulateInstruction::ReadMemoryFrame,
&lldb_private::EmulateInstruction::WriteMemoryFrame,
&lldb_private::EmulateInstruction::ReadRegisterFrame,
&lldb_private::EmulateInstruction::WriteRegisterFrame);
}
}
return false;
}
bool SBInstruction::DumpEmulation(const char *triple) {
LLDB_RECORD_METHOD(bool, SBInstruction, DumpEmulation, (const char *),
triple);
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp && triple) {
return inst_sp->DumpEmulation(HostInfo::GetAugmentedArchSpec(triple));
}
return false;
}
bool SBInstruction::TestEmulation(lldb::SBStream &output_stream,
const char *test_file) {
LLDB_RECORD_METHOD(bool, SBInstruction, TestEmulation,
(lldb::SBStream &, const char *), output_stream,
test_file);
if (!m_opaque_sp)
SetOpaque(lldb::DisassemblerSP(),
lldb::InstructionSP(new PseudoInstruction()));
lldb::InstructionSP inst_sp(GetOpaque());
if (inst_sp)
return inst_sp->TestEmulation(output_stream.get(), test_file);
return false;
}
namespace lldb_private {
namespace repro {
template <>
void RegisterMethods<SBInstruction>(Registry &R) {
LLDB_REGISTER_CONSTRUCTOR(SBInstruction, ());
LLDB_REGISTER_CONSTRUCTOR(SBInstruction, (const lldb::SBInstruction &));
LLDB_REGISTER_METHOD(
const lldb::SBInstruction &,
SBInstruction, operator=,(const lldb::SBInstruction &));
LLDB_REGISTER_METHOD(bool, SBInstruction, IsValid, ());
LLDB_REGISTER_METHOD_CONST(bool, SBInstruction, operator bool, ());
LLDB_REGISTER_METHOD(lldb::SBAddress, SBInstruction, GetAddress, ());
LLDB_REGISTER_METHOD(const char *, SBInstruction, GetMnemonic,
(lldb::SBTarget));
LLDB_REGISTER_METHOD(const char *, SBInstruction, GetOperands,
(lldb::SBTarget));
LLDB_REGISTER_METHOD(const char *, SBInstruction, GetComment,
(lldb::SBTarget));
LLDB_REGISTER_METHOD(size_t, SBInstruction, GetByteSize, ());
LLDB_REGISTER_METHOD(lldb::SBData, SBInstruction, GetData,
(lldb::SBTarget));
LLDB_REGISTER_METHOD(bool, SBInstruction, DoesBranch, ());
LLDB_REGISTER_METHOD(bool, SBInstruction, HasDelaySlot, ());
LLDB_REGISTER_METHOD(bool, SBInstruction, CanSetBreakpoint, ());
LLDB_REGISTER_METHOD(bool, SBInstruction, GetDescription,
(lldb::SBStream &));
LLDB_REGISTER_METHOD(void, SBInstruction, Print, (FILE *));
LLDB_REGISTER_METHOD(bool, SBInstruction, EmulateWithFrame,
(lldb::SBFrame &, uint32_t));
LLDB_REGISTER_METHOD(bool, SBInstruction, DumpEmulation, (const char *));
LLDB_REGISTER_METHOD(bool, SBInstruction, TestEmulation,
(lldb::SBStream &, const char *));
}
}
}
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