/* * Copyright 2017 The WebRTC project authors. All Rights Reserved. * * Use of this source code is governed by a BSD-style license * that can be found in the LICENSE file in the root of the source * tree. An additional intellectual property rights grant can be found * in the file PATENTS. All contributing project authors may * be found in the AUTHORS file in the root of the source tree. */ #ifndef API_RTC_ERROR_H_ #define API_RTC_ERROR_H_ #ifdef WEBRTC_UNIT_TEST #include #endif // WEBRTC_UNIT_TEST #include #include // For std::move. #include "absl/types/optional.h" #include "rtc_base/checks.h" #include "rtc_base/logging.h" #include "rtc_base/system/rtc_export.h" namespace webrtc { // Enumeration to represent distinct classes of errors that an application // may wish to act upon differently. These roughly map to DOMExceptions or // RTCError "errorDetailEnum" values in the web API, as described in the // comments below. enum class RTCErrorType { // No error. NONE, // An operation is valid, but currently unsupported. // Maps to OperationError DOMException. UNSUPPORTED_OPERATION, // A supplied parameter is valid, but currently unsupported. // Maps to OperationError DOMException. UNSUPPORTED_PARAMETER, // General error indicating that a supplied parameter is invalid. // Maps to InvalidAccessError or TypeError DOMException depending on context. INVALID_PARAMETER, // Slightly more specific than INVALID_PARAMETER; a parameter's value was // outside the allowed range. // Maps to RangeError DOMException. INVALID_RANGE, // Slightly more specific than INVALID_PARAMETER; an error occurred while // parsing string input. // Maps to SyntaxError DOMException. SYNTAX_ERROR, // The object does not support this operation in its current state. // Maps to InvalidStateError DOMException. INVALID_STATE, // An attempt was made to modify the object in an invalid way. // Maps to InvalidModificationError DOMException. INVALID_MODIFICATION, // An error occurred within an underlying network protocol. // Maps to NetworkError DOMException. NETWORK_ERROR, // Some resource has been exhausted; file handles, hardware resources, ports, // etc. // Maps to OperationError DOMException. RESOURCE_EXHAUSTED, // The operation failed due to an internal error. // Maps to OperationError DOMException. INTERNAL_ERROR, // An error occured that has additional data. // The additional data is specified in // https://w3c.github.io/webrtc-pc/#rtcerror-interface // Maps to RTCError DOMException. OPERATION_ERROR_WITH_DATA, }; // Detail information, showing what further information should be present. // https://w3c.github.io/webrtc-pc/#rtcerrordetailtype-enum enum class RTCErrorDetailType { NONE, DATA_CHANNEL_FAILURE, DTLS_FAILURE, FINGERPRINT_FAILURE, SCTP_FAILURE, SDP_SYNTAX_ERROR, HARDWARE_ENCODER_NOT_AVAILABLE, HARDWARE_ENCODER_ERROR, }; // Roughly corresponds to RTCError in the web api. Holds an error type, a // message, and possibly additional information specific to that error. // // Doesn't contain anything beyond a type and message now, but will in the // future as more errors are implemented. class RTC_EXPORT RTCError { public: // Constructors. // Creates a "no error" error. RTCError() {} explicit RTCError(RTCErrorType type) : type_(type) {} RTCError(RTCErrorType type, std::string message) : type_(type), message_(std::move(message)) {} // In many use cases, it is better to use move than copy, // but copy and assignment are provided for those cases that need it. // Note that this has extra overhead because it copies strings. RTCError(const RTCError& other) = default; RTCError(RTCError&&) = default; RTCError& operator=(const RTCError& other) = default; RTCError& operator=(RTCError&&) = default; // Identical to default constructed error. // // Preferred over the default constructor for code readability. static RTCError OK(); // Error type. RTCErrorType type() const { return type_; } void set_type(RTCErrorType type) { type_ = type; } // Human-readable message describing the error. Shouldn't be used for // anything but logging/diagnostics, since messages are not guaranteed to be // stable. const char* message() const; void set_message(std::string message); RTCErrorDetailType error_detail() const { return error_detail_; } void set_error_detail(RTCErrorDetailType detail) { error_detail_ = detail; } absl::optional sctp_cause_code() const { return sctp_cause_code_; } void set_sctp_cause_code(uint16_t cause_code) { sctp_cause_code_ = cause_code; } // Convenience method for situations where you only care whether or not an // error occurred. bool ok() const { return type_ == RTCErrorType::NONE; } private: RTCErrorType type_ = RTCErrorType::NONE; std::string message_; RTCErrorDetailType error_detail_ = RTCErrorDetailType::NONE; absl::optional sctp_cause_code_; }; // Outputs the error as a friendly string. Update this method when adding a new // error type. // // Only intended to be used for logging/diagnostics. The returned char* points // to literal string that lives for the whole duration of the program. RTC_EXPORT const char* ToString(RTCErrorType error); RTC_EXPORT const char* ToString(RTCErrorDetailType error); #ifdef WEBRTC_UNIT_TEST inline std::ostream& operator<<( // no-presubmit-check TODO(webrtc:8982) std::ostream& stream, // no-presubmit-check TODO(webrtc:8982) RTCErrorType error) { return stream << ToString(error); } inline std::ostream& operator<<( // no-presubmit-check TODO(webrtc:8982) std::ostream& stream, // no-presubmit-check TODO(webrtc:8982) RTCErrorDetailType error) { return stream << ToString(error); } #endif // WEBRTC_UNIT_TEST // Helper macro that can be used by implementations to create an error with a // message and log it. `message` should be a string literal or movable // std::string. #define LOG_AND_RETURN_ERROR_EX(type, message, severity) \ { \ RTC_DCHECK(type != RTCErrorType::NONE); \ RTC_LOG(severity) << message << " (" << ::webrtc::ToString(type) << ")"; \ return ::webrtc::RTCError(type, message); \ } #define LOG_AND_RETURN_ERROR(type, message) \ LOG_AND_RETURN_ERROR_EX(type, message, LS_ERROR) // RTCErrorOr is the union of an RTCError object and a T object. RTCErrorOr // models the concept of an object that is either a usable value, or an error // Status explaining why such a value is not present. To this end RTCErrorOr // does not allow its RTCErrorType value to be RTCErrorType::NONE. This is // enforced by a debug check in most cases. // // The primary use-case for RTCErrorOr is as the return value of a function // which may fail. For example, CreateRtpSender will fail if the parameters // could not be successfully applied at the media engine level, but if // successful will return a unique_ptr to an RtpSender. // // Example client usage for a RTCErrorOr>: // // RTCErrorOr> result = FooFactory::MakeNewFoo(arg); // if (result.ok()) { // std::unique_ptr foo = result.ConsumeValue(); // foo->DoSomethingCool(); // } else { // RTC_LOG(LS_ERROR) << result.error(); // } // // Example factory implementation returning RTCErrorOr>: // // RTCErrorOr> FooFactory::MakeNewFoo(int arg) { // if (arg <= 0) { // return RTCError(RTCErrorType::INVALID_RANGE, "Arg must be positive"); // } else { // return std::unique_ptr(new Foo(arg)); // } // } // template class RTCErrorOr { // Used to convert between RTCErrorOr/RtcErrorOr, when an implicit // conversion from Foo to Bar exists. template friend class RTCErrorOr; public: typedef T element_type; // Constructs a new RTCErrorOr with RTCErrorType::INTERNAL_ERROR error. This // is marked 'explicit' to try to catch cases like 'return {};', where people // think RTCErrorOr> will be initialized with an empty // vector, instead of a RTCErrorType::INTERNAL_ERROR error. RTCErrorOr() : error_(RTCErrorType::INTERNAL_ERROR) {} // Constructs a new RTCErrorOr with the given non-ok error. After calling // this constructor, calls to value() will DCHECK-fail. // // NOTE: Not explicit - we want to use RTCErrorOr as a return // value, so it is convenient and sensible to be able to do 'return // RTCError(...)' when the return type is RTCErrorOr. // // REQUIRES: !error.ok(). This requirement is DCHECKed. RTCErrorOr(RTCError&& error) : error_(std::move(error)) { // NOLINT RTC_DCHECK(!error.ok()); } // Constructs a new RTCErrorOr with the given value. After calling this // constructor, calls to value() will succeed, and calls to error() will // return a default-constructed RTCError. // // NOTE: Not explicit - we want to use RTCErrorOr as a return type // so it is convenient and sensible to be able to do 'return T()' // when the return type is RTCErrorOr. RTCErrorOr(const T& value) : value_(value) {} // NOLINT RTCErrorOr(T&& value) : value_(std::move(value)) {} // NOLINT // Delete the copy constructor and assignment operator; there aren't any use // cases where you should need to copy an RTCErrorOr, as opposed to moving // it. Can revisit this decision if use cases arise in the future. RTCErrorOr(const RTCErrorOr& other) = delete; RTCErrorOr& operator=(const RTCErrorOr& other) = delete; // Move constructor and move-assignment operator. // // Visual Studio doesn't support "= default" with move constructors or // assignment operators (even though they compile, they segfault), so define // them explicitly. RTCErrorOr(RTCErrorOr&& other) : error_(std::move(other.error_)), value_(std::move(other.value_)) {} RTCErrorOr& operator=(RTCErrorOr&& other) { error_ = std::move(other.error_); value_ = std::move(other.value_); return *this; } // Conversion constructor and assignment operator; T must be copy or move // constructible from U. template RTCErrorOr(RTCErrorOr other) // NOLINT : error_(std::move(other.error_)), value_(std::move(other.value_)) {} template RTCErrorOr& operator=(RTCErrorOr other) { error_ = std::move(other.error_); value_ = std::move(other.value_); return *this; } // Returns a reference to our error. If this contains a T, then returns // default-constructed RTCError. const RTCError& error() const { return error_; } // Moves the error. Can be useful if, say "CreateFoo" returns an // RTCErrorOr, and internally calls "CreateBar" which returns an // RTCErrorOr, and wants to forward the error up the stack. RTCError MoveError() { return std::move(error_); } // Returns this->error().ok() bool ok() const { return error_.ok(); } // Returns a reference to our current value, or DCHECK-fails if !this->ok(). // // Can be convenient for the implementation; for example, a method may want // to access the value in some way before returning it to the next method on // the stack. const T& value() const { RTC_DCHECK(ok()); return value_; } T& value() { RTC_DCHECK(ok()); return value_; } // Moves our current value out of this object and returns it, or DCHECK-fails // if !this->ok(). T MoveValue() { RTC_DCHECK(ok()); return std::move(value_); } private: RTCError error_; T value_; }; } // namespace webrtc #endif // API_RTC_ERROR_H_