tdlight/tdutils/td/utils/Status.h

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//
2021-01-01 13:57:46 +01:00
// Copyright Aliaksei Levin (levlam@telegram.org), Arseny Smirnov (arseny30@gmail.com) 2014-2021
//
// Distributed under the Boost Software License, Version 1.0. (See accompanying
// file LICENSE_1_0.txt or copy at http://www.boost.org/LICENSE_1_0.txt)
//
#pragma once
#include "td/utils/common.h"
#include "td/utils/logging.h"
#include "td/utils/ScopeGuard.h"
#include "td/utils/Slice.h"
#include "td/utils/SliceBuilder.h"
#include "td/utils/StackAllocator.h"
#include "td/utils/StringBuilder.h"
#include <cerrno>
#include <cstring>
#include <memory>
#include <new>
#include <type_traits>
#include <utility>
#define TRY_STATUS(status) \
{ \
auto try_status = (status); \
if (try_status.is_error()) { \
return try_status.move_as_error(); \
} \
}
#define TRY_STATUS_PREFIX(status, prefix) \
{ \
auto try_status = (status); \
if (try_status.is_error()) { \
return try_status.move_as_error_prefix(prefix); \
} \
}
#define TRY_STATUS_PROMISE(promise_name, status) \
{ \
auto try_status = (status); \
if (try_status.is_error()) { \
promise_name.set_error(std::move(try_status)); \
return; \
} \
}
#define TRY_STATUS_PROMISE_PREFIX(promise_name, status, prefix) \
{ \
auto try_status = (status); \
if (try_status.is_error()) { \
promise_name.set_error(try_status.move_as_error_prefix(prefix)); \
return; \
} \
}
#define TRY_RESULT(name, result) TRY_RESULT_IMPL(TD_CONCAT(TD_CONCAT(r_, name), __LINE__), auto name, result)
#define TRY_RESULT_PROMISE(promise_name, name, result) \
TRY_RESULT_PROMISE_IMPL(promise_name, TD_CONCAT(TD_CONCAT(r_, name), __LINE__), auto name, result)
#define TRY_RESULT_ASSIGN(name, result) TRY_RESULT_IMPL(TD_CONCAT(r_response, __LINE__), name, result)
#define TRY_RESULT_PROMISE_ASSIGN(promise_name, name, result) \
TRY_RESULT_PROMISE_IMPL(promise_name, TD_CONCAT(TD_CONCAT(r_, name), __LINE__), name, result)
#define TRY_RESULT_PREFIX(name, result, prefix) \
TRY_RESULT_PREFIX_IMPL(TD_CONCAT(TD_CONCAT(r_, name), __LINE__), auto name, result, prefix)
#define TRY_RESULT_PREFIX_ASSIGN(name, result, prefix) \
TRY_RESULT_PREFIX_IMPL(TD_CONCAT(TD_CONCAT(r_, name), __LINE__), name, result, prefix)
#define TRY_RESULT_PROMISE_PREFIX(promise_name, name, result, prefix) \
TRY_RESULT_PROMISE_PREFIX_IMPL(promise_name, TD_CONCAT(TD_CONCAT(r_, name), __LINE__), auto name, result, prefix)
#define TRY_RESULT_PROMISE_PREFIX_ASSIGN(promise_name, name, result, prefix) \
TRY_RESULT_PROMISE_PREFIX_IMPL(promise_name, TD_CONCAT(TD_CONCAT(r_, name), __LINE__), name, result, prefix)
#define TRY_RESULT_IMPL(r_name, name, result) \
auto r_name = (result); \
if (r_name.is_error()) { \
return r_name.move_as_error(); \
} \
name = r_name.move_as_ok();
#define TRY_RESULT_PREFIX_IMPL(r_name, name, result, prefix) \
auto r_name = (result); \
if (r_name.is_error()) { \
return r_name.move_as_error_prefix(prefix); \
} \
name = r_name.move_as_ok();
#define TRY_RESULT_PROMISE_IMPL(promise_name, r_name, name, result) \
auto r_name = (result); \
if (r_name.is_error()) { \
promise_name.set_error(r_name.move_as_error()); \
return; \
} \
name = r_name.move_as_ok();
#define TRY_RESULT_PROMISE_PREFIX_IMPL(promise_name, r_name, name, result, prefix) \
auto r_name = (result); \
if (r_name.is_error()) { \
promise_name.set_error(r_name.move_as_error_prefix(prefix)); \
return; \
} \
name = r_name.move_as_ok();
#define LOG_STATUS(status) \
{ \
auto log_status = (status); \
if (log_status.is_error()) { \
LOG(ERROR) << log_status.move_as_error(); \
} \
}
#ifndef TD_STATUS_NO_ENSURE
#define ensure() ensure_impl(__FILE__, __LINE__)
#define ensure_error() ensure_error_impl(__FILE__, __LINE__)
#endif
#if TD_PORT_POSIX
#define OS_ERROR(message) \
[&] { \
auto saved_errno = errno; \
return ::td::Status::PosixError(saved_errno, (message)); \
}()
#define OS_SOCKET_ERROR(message) OS_ERROR(message)
#elif TD_PORT_WINDOWS
#define OS_ERROR(message) \
[&] { \
auto saved_error = ::GetLastError(); \
return ::td::Status::WindowsError(saved_error, (message)); \
}()
#define OS_SOCKET_ERROR(message) \
[&] { \
auto saved_error = ::WSAGetLastError(); \
return ::td::Status::WindowsError(saved_error, (message)); \
}()
#endif
namespace td {
#if TD_PORT_POSIX
CSlice strerror_safe(int code);
#endif
#if TD_PORT_WINDOWS
string winerror_to_string(int code);
#endif
class Status {
enum class ErrorType : int8 { General, Os };
public:
Status() = default;
bool operator==(const Status &other) const {
return ptr_ == other.ptr_;
}
Status clone() const TD_WARN_UNUSED_RESULT {
if (is_ok()) {
return Status();
}
auto info = get_info();
if (info.static_flag) {
return clone_static();
}
return Status(false, info.error_type, info.error_code, message());
}
static Status OK() TD_WARN_UNUSED_RESULT {
return Status();
}
static Status Error(int err, Slice message = Slice()) TD_WARN_UNUSED_RESULT {
return Status(false, ErrorType::General, err, message);
}
static Status Error(Slice message) TD_WARN_UNUSED_RESULT {
return Error(0, message);
}
#if TD_PORT_WINDOWS
static Status WindowsError(int saved_error, Slice message) TD_WARN_UNUSED_RESULT {
return Status(false, ErrorType::Os, saved_error, message);
}
#endif
#if TD_PORT_POSIX
static Status PosixError(int32 saved_errno, Slice message) TD_WARN_UNUSED_RESULT {
return Status(false, ErrorType::Os, saved_errno, message);
}
#endif
static Status Error() TD_WARN_UNUSED_RESULT {
return Error<0>();
}
template <int Code>
static Status Error() {
static Status status(true, ErrorType::General, Code, "");
return status.clone_static();
}
StringBuilder &print(StringBuilder &sb) const {
if (is_ok()) {
return sb << "OK";
}
Info info = get_info();
switch (info.error_type) {
case ErrorType::General:
sb << "[Error";
break;
case ErrorType::Os:
#if TD_PORT_POSIX
sb << "[PosixError : " << strerror_safe(info.error_code);
#elif TD_PORT_WINDOWS
sb << "[WindowsError : " << winerror_to_string(info.error_code);
#endif
break;
default:
UNREACHABLE();
break;
}
sb << " : " << code() << " : " << message() << "]";
return sb;
}
string to_string() const {
auto buf = StackAllocator::alloc(4096);
StringBuilder sb(buf.as_slice());
print(sb);
return sb.as_cslice().str();
}
// Default interface
bool is_ok() const TD_WARN_UNUSED_RESULT {
return !is_error();
}
bool is_error() const TD_WARN_UNUSED_RESULT {
return ptr_ != nullptr;
}
#ifdef TD_STATUS_NO_ENSURE
void ensure() const {
if (!is_ok()) {
LOG(FATAL) << "Unexpected Status " << to_string();
}
}
void ensure_error() const {
if (is_ok()) {
LOG(FATAL) << "Unexpected Status::OK";
}
}
#else
void ensure_impl(CSlice file_name, int line) const {
if (!is_ok()) {
LOG(FATAL) << "Unexpected Status " << to_string() << " in file " << file_name << " at line " << line;
}
}
void ensure_error_impl(CSlice file_name, int line) const {
if (is_ok()) {
LOG(FATAL) << "Unexpected Status::OK in file " << file_name << " at line " << line;
}
}
#endif
void ignore() const {
// nop
}
int32 code() const {
if (is_ok()) {
return 0;
}
return get_info().error_code;
}
CSlice message() const {
if (is_ok()) {
return CSlice("OK");
}
return CSlice(ptr_.get() + sizeof(Info));
}
string public_message() const {
if (is_ok()) {
return "OK";
}
Info info = get_info();
switch (info.error_type) {
case ErrorType::General:
return message().str();
case ErrorType::Os:
#if TD_PORT_POSIX
return strerror_safe(info.error_code).str();
#elif TD_PORT_WINDOWS
return winerror_to_string(info.error_code);
#endif
default:
UNREACHABLE();
return "";
}
}
const Status &error() const {
return *this;
}
Status move() TD_WARN_UNUSED_RESULT {
return std::move(*this);
}
Status move_as_error() TD_WARN_UNUSED_RESULT {
return std::move(*this);
}
Status move_as_ok() = delete;
Status move_as_error_prefix(const Status &status) const TD_WARN_UNUSED_RESULT {
return status.move_as_error_suffix(message());
}
Status move_as_error_prefix(Slice prefix) const TD_WARN_UNUSED_RESULT {
CHECK(is_error());
Info info = get_info();
switch (info.error_type) {
case ErrorType::General:
return Error(code(), PSLICE() << prefix << message());
case ErrorType::Os:
return Status(false, ErrorType::Os, code(), PSLICE() << prefix << message());
default:
UNREACHABLE();
return {};
}
}
Status move_as_error_suffix(Slice suffix) const TD_WARN_UNUSED_RESULT {
CHECK(is_error());
Info info = get_info();
switch (info.error_type) {
case ErrorType::General:
return Error(code(), PSLICE() << message() << suffix);
case ErrorType::Os:
return Status(false, ErrorType::Os, code(), PSLICE() << message() << suffix);
default:
UNREACHABLE();
return {};
}
}
private:
struct Info {
bool static_flag : 1;
signed int error_code : 23;
ErrorType error_type;
};
struct Deleter {
void operator()(char *ptr) {
if (!get_info(ptr).static_flag) {
delete[] ptr;
}
}
};
std::unique_ptr<char[], Deleter> ptr_;
Status(Info info, Slice message) {
size_t size = sizeof(Info) + message.size() + 1;
ptr_ = std::unique_ptr<char[], Deleter>(new char[size]);
char *ptr = ptr_.get();
reinterpret_cast<Info *>(ptr)[0] = info;
ptr += sizeof(Info);
std::memcpy(ptr, message.begin(), message.size());
ptr += message.size();
*ptr = 0;
}
Status(bool static_flag, ErrorType error_type, int error_code, Slice message)
: Status(to_info(static_flag, error_type, error_code), message) {
if (static_flag) {
TD_LSAN_IGNORE(ptr_.get());
}
}
Status clone_static() const TD_WARN_UNUSED_RESULT {
CHECK(is_ok() || get_info().static_flag);
Status result;
result.ptr_ = std::unique_ptr<char[], Deleter>(ptr_.get());
return result;
}
static Info to_info(bool static_flag, ErrorType error_type, int error_code) {
const int MIN_ERROR_CODE = -(1 << 22) + 1;
const int MAX_ERROR_CODE = (1 << 22) - 1;
Info tmp;
tmp.static_flag = static_flag;
tmp.error_type = error_type;
if (error_code < MIN_ERROR_CODE) {
LOG(ERROR) << "Error code value is altered from " << error_code;
error_code = MIN_ERROR_CODE;
}
if (error_code > MAX_ERROR_CODE) {
LOG(ERROR) << "Error code value is altered from " << error_code;
error_code = MAX_ERROR_CODE;
}
#if TD_GCC
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wconversion"
#endif
tmp.error_code = error_code;
#if TD_GCC
#pragma GCC diagnostic pop
#endif
CHECK(error_code == tmp.error_code);
return tmp;
}
Info get_info() const {
return get_info(ptr_.get());
}
static Info get_info(char *ptr) {
return reinterpret_cast<Info *>(ptr)[0];
}
};
template <class T = Unit>
class Result {
public:
using ValueT = T;
Result() : status_(Status::Error<-1>()) {
}
template <class S, std::enable_if_t<!std::is_same<std::decay_t<S>, Result>::value, int> = 0>
Result(S &&x) : status_(), value_(std::forward<S>(x)) {
}
struct emplace_t {};
template <class... ArgsT>
Result(emplace_t, ArgsT &&... args) : status_(), value_(std::forward<ArgsT>(args)...) {
}
Result(Status &&status) : status_(std::move(status)) {
CHECK(status_.is_error());
}
Result(const Result &) = delete;
Result &operator=(const Result &) = delete;
Result(Result &&other) : status_(std::move(other.status_)) {
if (status_.is_ok()) {
new (&value_) T(std::move(other.value_));
other.value_.~T();
}
other.status_ = Status::Error<-2>();
}
Result &operator=(Result &&other) {
CHECK(this != &other);
if (status_.is_ok()) {
value_.~T();
}
if (other.status_.is_ok()) {
#if TD_GCC
#pragma GCC diagnostic push
#pragma GCC diagnostic ignored "-Wmaybe-uninitialized"
#endif
new (&value_) T(std::move(other.value_));
#if TD_GCC
#pragma GCC diagnostic pop
#endif
other.value_.~T();
}
status_ = std::move(other.status_);
other.status_ = Status::Error<-3>();
return *this;
}
template <class... ArgsT>
void emplace(ArgsT &&... args) {
if (status_.is_ok()) {
value_.~T();
}
new (&value_) T(std::forward<ArgsT>(args)...);
status_ = Status::OK();
}
~Result() {
if (status_.is_ok()) {
value_.~T();
}
}
#ifdef TD_STATUS_NO_ENSURE
void ensure() const {
status_.ensure();
}
void ensure_error() const {
status_.ensure_error();
}
#else
void ensure_impl(CSlice file_name, int line) const {
status_.ensure_impl(file_name, line);
}
void ensure_error_impl(CSlice file_name, int line) const {
status_.ensure_error_impl(file_name, line);
}
#endif
void ignore() const {
status_.ignore();
}
bool is_ok() const {
return status_.is_ok();
}
bool is_error() const {
return status_.is_error();
}
const Status &error() const {
CHECK(status_.is_error());
return status_;
}
Status move_as_error() TD_WARN_UNUSED_RESULT {
CHECK(status_.is_error());
SCOPE_EXIT {
status_ = Status::Error<-4>();
};
return std::move(status_);
}
Status move_as_error_prefix(Slice prefix) TD_WARN_UNUSED_RESULT {
SCOPE_EXIT {
status_ = Status::Error<-5>();
};
return status_.move_as_error_prefix(prefix);
}
Status move_as_error_prefix(const Status &prefix) TD_WARN_UNUSED_RESULT {
SCOPE_EXIT {
status_ = Status::Error<-6>();
};
return status_.move_as_error_prefix(prefix);
}
Status move_as_error_suffix(Slice suffix) TD_WARN_UNUSED_RESULT {
SCOPE_EXIT {
status_ = Status::Error<-7>();
};
return status_.move_as_error_suffix(suffix);
}
const T &ok() const {
LOG_CHECK(status_.is_ok()) << status_;
return value_;
}
T &ok_ref() {
LOG_CHECK(status_.is_ok()) << status_;
return value_;
}
const T &ok_ref() const {
LOG_CHECK(status_.is_ok()) << status_;
return value_;
}
T move_as_ok() {
LOG_CHECK(status_.is_ok()) << status_;
return std::move(value_);
}
Result<T> clone() const TD_WARN_UNUSED_RESULT {
if (is_ok()) {
return Result<T>(ok()); // TODO: return clone(ok());
}
return error().clone();
}
void clear() {
*this = Result<T>();
}
template <class F>
Result<decltype(std::declval<F>()(std::declval<T>()))> move_map(F &&f) {
if (is_error()) {
return move_as_error();
}
return f(move_as_ok());
}
template <class F>
decltype(std::declval<F>()(std::declval<T>())) move_fmap(F &&f) {
if (is_error()) {
return move_as_error();
}
return f(move_as_ok());
}
private:
Status status_;
union {
T value_;
};
};
template <>
inline Result<Unit>::Result(Status &&status) : status_(std::move(status)) {
// no assert
}
inline StringBuilder &operator<<(StringBuilder &string_builder, const Status &status) {
return status.print(string_builder);
}
} // namespace td