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clang-p2996/lldb/source/Utility/ReproducerInstrumentation.cpp
Jonas Devlieghere e7f1067ad6 [lldb/Reproducers] Skip API logging in the DUMMY macro 
The purpose of the LLDB_RECORD_DUMMY macro is twofold: it is used in
functions that take arguments that we don't know how to serialize (e.g.
void*) and it's used by function where we want to avoid doing excessive
work because they can be called from a signal handler (e.g.
setTerminalWidth).

To support the latter case, I've disabled API logging form the Recorder
ctor used by the DUMMY macro. This ensures we don't allocate memory when
called from a signal handler.
2020-05-27 10:35:43 -07:00

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//===-- ReproducerInstrumentation.cpp -------------------------------------===//
//
// 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/Utility/ReproducerInstrumentation.h"
#include "lldb/Utility/Reproducer.h"
#include <stdio.h>
#include <stdlib.h>
#include <thread>
using namespace lldb_private;
using namespace lldb_private::repro;
void *IndexToObject::GetObjectForIndexImpl(unsigned idx) {
return m_mapping.lookup(idx);
}
void IndexToObject::AddObjectForIndexImpl(unsigned idx, void *object) {
assert(idx != 0 && "Cannot add object for sentinel");
m_mapping[idx] = object;
}
std::vector<void *> IndexToObject::GetAllObjects() const {
std::vector<std::pair<unsigned, void *>> pairs;
for (auto &e : m_mapping) {
pairs.emplace_back(e.first, e.second);
}
// Sort based on index.
std::sort(pairs.begin(), pairs.end(),
[](auto &lhs, auto &rhs) { return lhs.first < rhs.first; });
std::vector<void *> objects;
objects.reserve(pairs.size());
for (auto &p : pairs) {
objects.push_back(p.second);
}
return objects;
}
template <> const uint8_t *Deserializer::Deserialize<const uint8_t *>() {
return Deserialize<uint8_t *>();
}
template <> void *Deserializer::Deserialize<void *>() {
return const_cast<void *>(Deserialize<const void *>());
}
template <> const void *Deserializer::Deserialize<const void *>() {
return nullptr;
}
template <> char *Deserializer::Deserialize<char *>() {
return const_cast<char *>(Deserialize<const char *>());
}
template <> const char *Deserializer::Deserialize<const char *>() {
const size_t size = Deserialize<size_t>();
if (size == std::numeric_limits<size_t>::max())
return nullptr;
assert(HasData(size + 1));
const char *str = m_buffer.data();
m_buffer = m_buffer.drop_front(size + 1);
#ifdef LLDB_REPRO_INSTR_TRACE
llvm::errs() << "Deserializing with " << LLVM_PRETTY_FUNCTION << " -> \""
<< str << "\"\n";
#endif
return str;
}
template <> const char **Deserializer::Deserialize<const char **>() {
const size_t size = Deserialize<size_t>();
if (size == 0)
return nullptr;
const char **r =
reinterpret_cast<const char **>(calloc(size + 1, sizeof(char *)));
for (size_t i = 0; i < size; ++i)
r[i] = Deserialize<const char *>();
return r;
}
bool Registry::Replay(const FileSpec &file) {
auto error_or_file = llvm::MemoryBuffer::getFile(file.GetPath());
if (auto err = error_or_file.getError())
return false;
return Replay((*error_or_file)->getBuffer());
}
bool Registry::Replay(llvm::StringRef buffer) {
Deserializer deserializer(buffer);
return Replay(deserializer);
}
bool Registry::Replay(Deserializer &deserializer) {
#ifndef LLDB_REPRO_INSTR_TRACE
Log *log = GetLogIfAllCategoriesSet(LIBLLDB_LOG_API);
#endif
// Disable buffering stdout so that we approximate the way things get flushed
// during an interactive session.
setvbuf(stdout, nullptr, _IONBF, 0);
while (deserializer.HasData(1)) {
unsigned id = deserializer.Deserialize<unsigned>();
#ifndef LLDB_REPRO_INSTR_TRACE
LLDB_LOG(log, "Replaying {0}: {1}", id, GetSignature(id));
#else
llvm::errs() << "Replaying " << id << ": " << GetSignature(id) << "\n";
#endif
GetReplayer(id)->operator()(deserializer);
}
// Add a small artificial delay to ensure that all asynchronous events have
// completed before we exit.
std::this_thread::sleep_for(std::chrono::milliseconds(100));
return true;
}
void Registry::DoRegister(uintptr_t RunID, std::unique_ptr<Replayer> replayer,
SignatureStr signature) {
const unsigned id = m_replayers.size() + 1;
assert(m_replayers.find(RunID) == m_replayers.end());
m_replayers[RunID] = std::make_pair(std::move(replayer), id);
m_ids[id] =
std::make_pair(m_replayers[RunID].first.get(), std::move(signature));
}
unsigned Registry::GetID(uintptr_t addr) {
unsigned id = m_replayers[addr].second;
assert(id != 0 && "Forgot to add function to registry?");
return id;
}
std::string Registry::GetSignature(unsigned id) {
assert(m_ids.count(id) != 0 && "ID not in registry");
return m_ids[id].second.ToString();
}
void Registry::CheckID(unsigned expected, unsigned actual) {
if (expected != actual) {
llvm::errs() << "Reproducer expected signature " << expected << ": '"
<< GetSignature(expected) << "'\n";
llvm::errs() << "Reproducer actual signature " << actual << ": '"
<< GetSignature(actual) << "'\n";
llvm::report_fatal_error(
"Detected reproducer replay divergence. Refusing to continue.");
}
#ifdef LLDB_REPRO_INSTR_TRACE
llvm::errs() << "Replaying " << actual << ": " << GetSignature(actual)
<< "\n";
#endif
}
Replayer *Registry::GetReplayer(unsigned id) {
assert(m_ids.count(id) != 0 && "ID not in registry");
return m_ids[id].first;
}
std::string Registry::SignatureStr::ToString() const {
return (result + (result.empty() ? "" : " ") + scope + "::" + name + args)
.str();
}
unsigned ObjectToIndex::GetIndexForObjectImpl(const void *object) {
unsigned index = m_mapping.size() + 1;
auto it = m_mapping.find(object);
if (it == m_mapping.end())
m_mapping[object] = index;
return m_mapping[object];
}
Recorder::Recorder()
: m_serializer(nullptr), m_pretty_func(), m_pretty_args(),
m_local_boundary(false), m_result_recorded(true) {
if (!g_global_boundary) {
g_global_boundary = true;
m_local_boundary = true;
}
}
Recorder::Recorder(llvm::StringRef pretty_func, std::string &&pretty_args)
: m_serializer(nullptr), m_pretty_func(pretty_func),
m_pretty_args(pretty_args), m_local_boundary(false),
m_result_recorded(true) {
if (!g_global_boundary) {
g_global_boundary = true;
m_local_boundary = true;
LLDB_LOG(GetLogIfAllCategoriesSet(LIBLLDB_LOG_API), "{0} ({1})",
m_pretty_func, m_pretty_args);
}
}
Recorder::~Recorder() {
assert(m_result_recorded && "Did you forget LLDB_RECORD_RESULT?");
UpdateBoundary();
}
void InstrumentationData::Initialize(Serializer &serializer,
Registry &registry) {
InstanceImpl().emplace(serializer, registry);
}
void InstrumentationData::Initialize(Deserializer &deserializer,
Registry &registry) {
InstanceImpl().emplace(deserializer, registry);
}
InstrumentationData &InstrumentationData::Instance() {
if (!InstanceImpl())
InstanceImpl().emplace();
return *InstanceImpl();
}
llvm::Optional<InstrumentationData> &InstrumentationData::InstanceImpl() {
static llvm::Optional<InstrumentationData> g_instrumentation_data;
return g_instrumentation_data;
}
bool lldb_private::repro::Recorder::g_global_boundary;
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