// SPDX-FileCopyrightText: 2015 Felix Rohrbach // SPDX-FileCopyrightText: 2016 Kitsune Ral // SPDX-License-Identifier: LGPL-2.1-or-later #pragma once #include "requestdata.h" #include "../logging.h" #include "../converters.h" #include #include class QNetworkReply; class QSslError; namespace Quotient { class ConnectionData; enum class HttpVerb { Get, Put, Post, Delete }; class BaseJob : public QObject { Q_OBJECT Q_PROPERTY(QUrl requestUrl READ requestUrl CONSTANT) Q_PROPERTY(int maxRetries READ maxRetries WRITE setMaxRetries) Q_PROPERTY(int statusCode READ error NOTIFY statusChanged) static QByteArray encodeIfParam(const QString& paramPart); template static inline auto encodeIfParam(const char (&constPart)[N]) { return constPart; } public: #define WITH_DEPRECATED_ERROR_VERSION(Recommended) \ Recommended, Recommended##Error Q_DECL_ENUMERATOR_DEPRECATED_X( \ "Use " #Recommended) = Recommended /*! The status code of a job * * Every job is created in Unprepared status; upon calling prepare() * from Connection (if things are fine) it go to Pending status. After * that, the next transition comes after the reply arrives and its contents * are analysed. At any point in time the job can be abandon()ed, causing * it to switch to status Abandoned for a brief period before deletion. */ enum StatusCode { Success = 0, NoError = Success, Pending = 1, WarningLevel = 20, //< Warnings have codes starting from this UnexpectedResponseType = 21, UnexpectedResponseTypeWarning = UnexpectedResponseType, Unprepared = 25, //< Initial job state is incomplete, hence warning level Abandoned = 50, //< A tiny period between abandoning and object deletion ErrorLevel = 100, //< Errors have codes starting from this NetworkError = 101, WITH_DEPRECATED_ERROR_VERSION(Timeout), Unauthorised, ContentAccessError, WITH_DEPRECATED_ERROR_VERSION(NotFound), WITH_DEPRECATED_ERROR_VERSION(IncorrectRequest), WITH_DEPRECATED_ERROR_VERSION(IncorrectResponse), WITH_DEPRECATED_ERROR_VERSION(TooManyRequests), RateLimited = TooManyRequests, WITH_DEPRECATED_ERROR_VERSION(RequestNotImplemented), WITH_DEPRECATED_ERROR_VERSION(UnsupportedRoomVersion), WITH_DEPRECATED_ERROR_VERSION(NetworkAuthRequired), WITH_DEPRECATED_ERROR_VERSION(UserConsentRequired), CannotLeaveRoom, UserDeactivated, FileError, UserDefinedError = 256 }; Q_ENUM(StatusCode) #undef WITH_DEPRECATED_ERROR_VERSION template static QByteArray makePath(StrTs&&... parts) { return (QByteArray() % ... % encodeIfParam(parts)); } using Data #ifndef Q_CC_MSVC Q_DECL_DEPRECATED_X("Use Quotient::RequestData instead") #endif = RequestData; /*! * This structure stores the status of a server call job. The status * consists of a code, that is described (but not delimited) by the * respective enum, and a freeform message. * * To extend the list of error codes, define an (anonymous) enum * along the lines of StatusCode, with additional values * starting at UserDefinedError */ struct Status { Status(StatusCode c) : code(c) {} Status(int c, QString m) : code(c), message(std::move(m)) {} static StatusCode fromHttpCode(int httpCode); static Status fromHttpCode(int httpCode, QString msg) { return { fromHttpCode(httpCode), std::move(msg) }; } bool good() const { return code < ErrorLevel; } QDebug dumpToLog(QDebug dbg) const; friend QDebug operator<<(const QDebug& dbg, const Status& s) { return s.dumpToLog(dbg); } bool operator==(const Status& other) const { return code == other.code && message == other.message; } bool operator!=(const Status& other) const { return !operator==(other); } bool operator==(int otherCode) const { return code == otherCode; } bool operator!=(int otherCode) const { return !operator==(otherCode); } int code; QString message; }; public: BaseJob(HttpVerb verb, const QString& name, QByteArray endpoint, bool needsToken = true); BaseJob(HttpVerb verb, const QString& name, QByteArray endpoint, const QUrlQuery& query, RequestData&& data = {}, bool needsToken = true); QUrl requestUrl() const; bool isBackground() const; /** Current status of the job */ Status status() const; /** Short human-friendly message on the job status */ QString statusCaption() const; /*! Get first bytes of the raw response body as received from the server * * \param bytesAtMost the number of leftmost bytes to return * * \sa rawDataSample */ QByteArray rawData(int bytesAtMost) const; /*! Access the whole response body as received from the server */ const QByteArray& rawData() const; /** Get UI-friendly sample of raw data * * This is almost the same as rawData but appends the "truncated" * suffix if not all data fit in bytesAtMost. This call is * recommended to present a sample of raw data as "details" next to * error messages. Note that the default \p bytesAtMost value is * also tailored to UI cases. * * \sa rawData */ QString rawDataSample(int bytesAtMost = 65535) const; /** Get the response body as a JSON object * * If the job's returned content type is not `application/json` * or if the top-level JSON entity is not an object, an empty object * is returned. */ QJsonObject jsonData() const; /** Get the response body as a JSON array * * If the job's returned content type is not `application/json` * or if the top-level JSON entity is not an array, an empty array * is returned. */ QJsonArray jsonItems() const; /** Load the property from the JSON response assuming a given C++ type * * If there's no top-level JSON object in the response or if there's * no node with the key \p keyName, \p defaultValue is returned. */ template T loadFromJson(const StrT& keyName, T&& defaultValue = {}) const { const auto& jv = jsonData().value(keyName); return jv.isUndefined() ? std::forward(defaultValue) : fromJson(jv); } /** Load the property from the JSON response and delete it from JSON * * If there's no top-level JSON object in the response or if there's * no node with the key \p keyName, \p defaultValue is returned. */ template T takeFromJson(const QString& key, T&& defaultValue = {}) { if (const auto& jv = takeValueFromJson(key); !jv.isUndefined()) return fromJson(jv); return std::forward(defaultValue); } /** Error (more generally, status) code * Equivalent to status().code * \sa status */ int error() const; /** Error-specific message, as returned by the server */ virtual QString errorString() const; /** A URL to help/clarify the error, if provided by the server */ QUrl errorUrl() const; int maxRetries() const; void setMaxRetries(int newMaxRetries); using duration_ms_t = std::chrono::milliseconds::rep; // normally int64_t std::chrono::seconds getCurrentTimeout() const; Q_INVOKABLE Quotient::BaseJob::duration_ms_t getCurrentTimeoutMs() const; std::chrono::seconds getNextRetryInterval() const; Q_INVOKABLE Quotient::BaseJob::duration_ms_t getNextRetryMs() const; std::chrono::milliseconds timeToRetry() const; Q_INVOKABLE Quotient::BaseJob::duration_ms_t millisToRetry() const; friend QDebug operator<<(QDebug dbg, const BaseJob* j) { return dbg << j->objectName(); } public Q_SLOTS: void initiate(ConnectionData* connData, bool inBackground); /** * Abandons the result of this job, arrived or unarrived. * * This aborts waiting for a reply from the server (if there was * any pending) and deletes the job object. No result signals * (result, success, failure) are emitted. */ void abandon(); Q_SIGNALS: /** The job is about to send a network request */ void aboutToSendRequest(); /** The job has sent a network request */ void sentRequest(); /** The job has changed its status */ void statusChanged(Quotient::BaseJob::Status newStatus); /** * The previous network request has failed; the next attempt will * be done in the specified time * @param nextAttempt the 1-based number of attempt (will always be more * than 1) * @param inMilliseconds the interval after which the next attempt will be * taken */ void retryScheduled(int nextAttempt, Quotient::BaseJob::duration_ms_t inMilliseconds); /** * The previous network request has been rate-limited; the next attempt * will be queued and run sometime later. Since other jobs may already * wait in the queue, it's not possible to predict the wait time. */ void rateLimited(); /** * Emitted when the job is finished, in any case. It is used to notify * observers that the job is terminated and that progress can be hidden. * * This should not be emitted directly by subclasses; * use finishJob() instead. * * In general, to be notified of a job's completion, client code * should connect to result(), success(), or failure() * rather than finished(). However if you need to track the job's * lifecycle you should connect to this instead of result(); * in particular, only this signal will be emitted on abandoning. * * @param job the job that emitted this signal * * @see result, success, failure */ void finished(Quotient::BaseJob* job); /** * Emitted when the job is finished (except when abandoned). * * Use error() to know if the job was finished with error. * * @param job the job that emitted this signal * * @see success, failure */ void result(Quotient::BaseJob* job); /** * Emitted together with result() in case there's no error. * * @see result, failure */ void success(Quotient::BaseJob*); /** * Emitted together with result() if there's an error. * Similar to result(), this won't be emitted in case of abandon(). * * @see result, success */ void failure(Quotient::BaseJob*); void downloadProgress(qint64 bytesReceived, qint64 bytesTotal); void uploadProgress(qint64 bytesSent, qint64 bytesTotal); protected: using headers_t = QHash; Q_DECL_DEPRECATED_X("Deprecated due to being unused") const QString& apiEndpoint() const; Q_DECL_DEPRECATED_X("Deprecated due to being unused") void setApiEndpoint(const QString& apiEndpoint); const headers_t& requestHeaders() const; void setRequestHeader(const headers_t::key_type& headerName, const headers_t::mapped_type& headerValue); void setRequestHeaders(const headers_t& headers); QUrlQuery query() const; void setRequestQuery(const QUrlQuery& query); const RequestData& requestData() const; void setRequestData(RequestData&& data); const QByteArrayList& expectedContentTypes() const; void addExpectedContentType(const QByteArray& contentType); void setExpectedContentTypes(const QByteArrayList& contentTypes); QByteArrayList expectedKeys() const; void addExpectedKey(const QByteArray &key); void setExpectedKeys(const QByteArrayList &keys); const QNetworkReply* reply() const; QNetworkReply* reply(); /** Construct a URL out of baseUrl, path and query * * The function ensures exactly one '/' between the path component of * \p baseUrl and \p path. The query component of \p baseUrl is ignored. */ static QUrl makeRequestUrl(QUrl baseUrl, const QByteArray &encodedPath, const QUrlQuery& query = {}); /*! Prepares the job for execution * * This method is called no more than once per job lifecycle, * when it's first scheduled for execution; in particular, it is not called * on retries. */ virtual void doPrepare(); /*! Postprocessing after the network request has been sent * * This method is called every time the job receives a running * QNetworkReply object from NetworkAccessManager - basically, after * successfully sending a network request (including retries). */ virtual void onSentRequest(QNetworkReply*); virtual void beforeAbandon(); /*! \brief An extension point for additional reply processing. * * The base implementation does nothing and returns Success. * * \sa gotReply */ virtual Status prepareResult(); /*! \brief Process details of the error * * The function processes the reply in case when status from checkReply() * was not good (usually because of an unsuccessful HTTP code). * The base implementation assumes Matrix JSON error object in the body; * overrides are strongly recommended to call it for all stock Matrix * responses as early as possible and only then process custom errors, * with JSON or non-JSON payload. * * \return updated (if necessary) job status */ virtual Status prepareError(Status currentStatus); /*! \brief Get direct access to the JSON response object in the job * * This allows to implement deserialisation with "move" semantics for parts * of the response. Assuming that the response body is a valid JSON object, * the function calls QJsonObject::take(key) on it and returns the result. * * \return QJsonValue::Null, if the response content type is not * advertised as `application/json`; * QJsonValue::Undefined, if the response is a JSON object but * doesn't have \p key; * the value for \p key otherwise. * * \sa takeFromJson */ QJsonValue takeValueFromJson(const QString& key); void setStatus(Status s); void setStatus(int code, QString message); // Q_DECLARE_LOGGING_CATEGORY return different function types // in different versions using LoggingCategory = decltype(JOBS)*; void setLoggingCategory(LoggingCategory lcf); // Job objects should only be deleted via QObject::deleteLater ~BaseJob() override; protected Q_SLOTS: void timeout(); /*! \brief Check the pending or received reply for upfront issues * * This is invoked when headers are first received and also once * the complete reply is obtained; the base implementation checks the HTTP * headers to detect general issues such as network errors or access denial * and it's strongly recommended to call it from overrides, * as early as possible. * This slot is const and cannot read the response body. If you need to read * the body on the fly, override onSentRequest() and connect in it * to reply->readyRead(); and if you only need to validate the body after * it fully arrived, use prepareResult() for that). Returning anything * except NoError/Success switches further processing from prepareResult() * to prepareError(). * * @return the result of checking the reply * * @see gotReply */ virtual Status checkReply(const QNetworkReply *reply) const; private Q_SLOTS: void sendRequest(); void gotReply(); friend class ConnectionData; // to provide access to sendRequest() private: void stop(); void finishJob(); class Private; QScopedPointer d; }; inline bool isJobPending(BaseJob* job) { return job && job->error() == BaseJob::Pending; } } // namespace Quotient