/******************************************************************************
* Copyright (C) 2015 Felix Rohrbach <kde@fxrh.de>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*/
#include "basejob.h"
#include "connectiondata.h"
#include "util.h"
#include <QtCore/QJsonObject>
#include <QtCore/QRegularExpression>
#include <QtCore/QTimer>
#include <QtCore/QStringBuilder>
#include <QtNetwork/QNetworkAccessManager>
#include <QtNetwork/QNetworkReply>
#include <QtNetwork/QNetworkRequest>
#include <array>
using namespace Quotient;
using std::chrono::seconds, std::chrono::milliseconds;
using namespace std::chrono_literals;
BaseJob::StatusCode BaseJob::Status::fromHttpCode(int httpCode)
{
if (httpCode / 10 == 41) // 41x errors
return httpCode == 410 ? IncorrectRequestError : NotFoundError;
switch (httpCode) {
case 401:
return Unauthorised;
// clang-format off
case 403: case 407: // clang-format on
return ContentAccessError;
case 404:
return NotFoundError;
// clang-format off
case 400: case 405: case 406: case 426: case 428: case 505: // clang-format on
case 494: // Unofficial nginx "Request header too large"
case 497: // Unofficial nginx "HTTP request sent to HTTPS port"
return IncorrectRequestError;
case 429:
return TooManyRequestsError;
case 501:
case 510:
return RequestNotImplementedError;
case 511:
return NetworkAuthRequiredError;
default:
return NetworkError;
}
}
QDebug BaseJob::Status::dumpToLog(QDebug dbg) const
{
QDebugStateSaver _s(dbg);
dbg.noquote().nospace();
if (auto* const k = QMetaEnum::fromType<StatusCode>().valueToKey(code)) {
const QByteArray b = k;
dbg << b.mid(b.lastIndexOf(':'));
} else
dbg << code;
return dbg << ": " << message;
}
struct NetworkReplyDeleter : public QScopedPointerDeleteLater {
static inline void cleanup(QNetworkReply* reply)
{
if (reply && reply->isRunning())
reply->abort();
QScopedPointerDeleteLater::cleanup(reply);
}
};
template <typename... Ts>
constexpr auto make_array(Ts&&... items)
{
return std::array<std::common_type_t<Ts...>, sizeof...(Ts)>({items...});
}
class BaseJob::Private {
public:
struct JobTimeoutConfig {
seconds jobTimeout;
seconds nextRetryInterval;
};
// Using an idiom from clang-tidy:
// http://clang.llvm.org/extra/clang-tidy/checks/modernize-pass-by-value.html
Private(HttpVerb v, QString endpoint, const QUrlQuery& q, Data&& data,
bool nt)
: verb(v)
, apiEndpoint(std::move(endpoint))
, requestQuery(q)
, requestData(std::move(data))
, needsToken(nt)
{
timer.setSingleShot(true);
retryTimer.setSingleShot(true);
}
void sendRequest();
ConnectionData* connection = nullptr;
// Contents for the network request
HttpVerb verb;
QString apiEndpoint;
QHash<QByteArray, QByteArray> requestHeaders;
QUrlQuery requestQuery;
Data requestData;
bool needsToken;
bool inBackground = false;
// There's no use of QMimeType here because we don't want to match
// content types against the known MIME type hierarchy; and at the same
// type QMimeType is of little help with MIME type globs (`text/*` etc.)
QByteArrayList expectedContentTypes { "application/json" };
QScopedPointer<QNetworkReply, NetworkReplyDeleter> reply;
Status status = Unprepared;
QByteArray rawResponse;
QUrl errorUrl; //< May contain a URL to help with some errors
LoggingCategory logCat = JOBS;
QTimer timer;
QTimer retryTimer;
static constexpr std::array<const JobTimeoutConfig, 3> errorStrategy {
{ { 90s, 5s }, { 90s, 10s }, { 120s, 30s } }
};
int maxRetries = int(errorStrategy.size());
int retriesTaken = 0;
[[nodiscard]] const JobTimeoutConfig& getCurrentTimeoutConfig() const
{
return errorStrategy[std::min(size_t(retriesTaken),
errorStrategy.size() - 1)];
}
[[nodiscard]] QString dumpRequest() const
{
// FIXME: use std::array {} when Apple stdlib gets deduction guides for it
static const auto verbs =
make_array(QStringLiteral("GET"), QStringLiteral("PUT"),
QStringLiteral("POST"), QStringLiteral("DELETE"));
const auto verbWord = verbs.at(size_t(verb));
return verbWord % ' '
% (reply ? reply->url().toString(QUrl::RemoveQuery)
: makeRequestUrl(connection->baseUrl(), apiEndpoint)
.toString());
}
};
BaseJob::BaseJob(HttpVerb verb, const QString& name, const QString& endpoint,
bool needsToken)
: BaseJob(verb, name, endpoint, Query {}, Data {}, needsToken)
{}
BaseJob::BaseJob(HttpVerb verb, const QString& name, const QString& endpoint,
const Query& query, Data&& data, bool needsToken)
: d(new Private(verb, endpoint, query, std::move(data), needsToken))
{
setObjectName(name);
connect(&d->timer, &QTimer::timeout, this, &BaseJob::timeout);
connect(&d->retryTimer, &QTimer::timeout, this, [this] {
d->connection->submit(this);
});
}
BaseJob::~BaseJob()
{
stop();
d->retryTimer.stop(); // See #398
qCDebug(d->logCat) << this << "destroyed";
}
QUrl BaseJob::requestUrl() const { return d->reply ? d->reply->url() : QUrl(); }
bool BaseJob::isBackground() const { return d->inBackground; }
const QString& BaseJob::apiEndpoint() const { return d->apiEndpoint; }
void BaseJob::setApiEndpoint(const QString& apiEndpoint)
{
d->apiEndpoint = apiEndpoint;
}
const BaseJob::headers_t& BaseJob::requestHeaders() const
{
return d->requestHeaders;
}
void BaseJob::setRequestHeader(const headers_t::key_type& headerName,
const headers_t::mapped_type& headerValue)
{
d->requestHeaders[headerName] = headerValue;
}
void BaseJob::setRequestHeaders(const BaseJob::headers_t& headers)
{
d->requestHeaders = headers;
}
const QUrlQuery& BaseJob::query() const { return d->requestQuery; }
void BaseJob::setRequestQuery(const QUrlQuery& query)
{
d->requestQuery = query;
}
const BaseJob::Data& BaseJob::requestData() const { return d->requestData; }
void BaseJob::setRequestData(Data&& data) { std::swap(d->requestData, data); }
const QByteArrayList& BaseJob::expectedContentTypes() const
{
return d->expectedContentTypes;
}
void BaseJob::addExpectedContentType(const QByteArray& contentType)
{
d->expectedContentTypes << contentType;
}
void BaseJob::setExpectedContentTypes(const QByteArrayList& contentTypes)
{
d->expectedContentTypes = contentTypes;
}
QUrl BaseJob::makeRequestUrl(QUrl baseUrl, const QString& path,
const QUrlQuery& query)
{
auto pathBase = baseUrl.path();
// QUrl::adjusted(QUrl::StripTrailingSlashes) doesn't help with root '/'
while (pathBase.endsWith('/'))
pathBase.chop(1);
if (!path.startsWith('/')) // Normally API files do start with '/'
pathBase.push_back('/'); // so this shouldn't be needed these days
baseUrl.setPath(pathBase + path, QUrl::TolerantMode);
baseUrl.setQuery(query);
return baseUrl;
}
void BaseJob::Private::sendRequest()
{
QNetworkRequest req { makeRequestUrl(connection->baseUrl(), apiEndpoint,
requestQuery) };
if (!requestHeaders.contains("Content-Type"))
req.setHeader(QNetworkRequest::ContentTypeHeader, "application/json");
if (needsToken)
req.setRawHeader("Authorization",
QByteArray("Bearer ") + connection->accessToken());
req.setAttribute(QNetworkRequest::BackgroundRequestAttribute, inBackground);
req.setAttribute(QNetworkRequest::FollowRedirectsAttribute, true);
req.setMaximumRedirectsAllowed(10);
// Pipelining doesn't fly quite well with SSL, occasionally crashing at
// what seems like an attempt to write to a closed channel.
// req.setAttribute(QNetworkRequest::HttpPipeliningAllowedAttribute, true);
req.setAttribute(
#if (QT_VERSION >= QT_VERSION_CHECK(5, 15, 0))
QNetworkRequest::Http2AllowedAttribute
#else
QNetworkRequest::HTTP2AllowedAttribute
#endif
, true);
Q_ASSERT(req.url().isValid());
for (auto it = requestHeaders.cbegin(); it != requestHeaders.cend(); ++it)
req.setRawHeader(it.key(), it.value());
switch (verb) {
case HttpVerb::Get:
reply.reset(connection->nam()->get(req));
break;
case HttpVerb::Post:
reply.reset(connection->nam()->post(req, requestData.source()));
break;
case HttpVerb::Put:
reply.reset(connection->nam()->put(req, requestData.source()));
break;
case HttpVerb::Delete:
reply.reset(connection->nam()->deleteResource(req));
break;
}
}
void BaseJob::doPrepare() { }
void BaseJob::onSentRequest(QNetworkReply*) { }
void BaseJob::beforeAbandon(QNetworkReply*) { }
void BaseJob::initiate(ConnectionData* connData, bool inBackground)
{
if (connData && connData->baseUrl().isValid()) {
d->inBackground = inBackground;
d->connection = connData;
doPrepare();
if ((d->verb == HttpVerb::Post || d->verb == HttpVerb::Put)
&& d->requestData.source()
&& !d->requestData.source()->isReadable()) {
setStatus(FileError, "Request data not ready");
}
Q_ASSERT(status().code != Pending); // doPrepare() must NOT set this
if (status().code == Unprepared) {
d->connection->submit(this);
return;
}
qCWarning(d->logCat).noquote()
<< "Request failed preparation and won't be sent:"
<< d->dumpRequest();
} else {
qCCritical(d->logCat)
<< "Developers, ensure the Connection is valid before using it";
Q_ASSERT(false);
setStatus(IncorrectRequestError, tr("Invalid server connection"));
}
// The status is no good, finalise
QTimer::singleShot(0, this, &BaseJob::finishJob);
}
void BaseJob::sendRequest()
{
if (status().code == Abandoned)
return;
Q_ASSERT(d->connection && status().code == Pending);
qCDebug(d->logCat).noquote() << "Making" << d->dumpRequest();
d->needsToken |= d->connection->needsToken(objectName());
emit aboutToSendRequest();
d->sendRequest();
Q_ASSERT(d->reply);
connect(d->reply.data(), &QNetworkReply::finished, this, &BaseJob::gotReply);
if (d->reply->isRunning()) {
connect(d->reply.data(), &QNetworkReply::metaDataChanged, this,
&BaseJob::checkReply);
connect(d->reply.data(), &QNetworkReply::uploadProgress, this,
&BaseJob::uploadProgress);
connect(d->reply.data(), &QNetworkReply::downloadProgress, this,
&BaseJob::downloadProgress);
d->timer.start(getCurrentTimeout());
qCInfo(d->logCat).noquote() << "Sent" << d->dumpRequest();
onSentRequest(d->reply.data());
emit sentRequest();
} else
qCCritical(d->logCat).noquote()
<< "Request could not start:" << d->dumpRequest();
}
void BaseJob::gotReply()
{
checkReply();
if (status().good())
setStatus(parseReply(d->reply.data()));
else {
d->rawResponse = d->reply->readAll();
const auto jsonBody = d->reply->rawHeader("Content-Type")
== "application/json";
qCDebug(d->logCat).noquote()
<< "Error body (truncated if long):" << d->rawResponse.left(500);
if (jsonBody)
setStatus(
parseError(d->reply.data(),
QJsonDocument::fromJson(d->rawResponse).object()));
}
finishJob();
}
bool checkContentType(const QByteArray& type, const QByteArrayList& patterns)
{
if (patterns.isEmpty())
return true;
// ignore possible appendixes of the content type
const auto ctype = type.split(';').front();
for (const auto& pattern: patterns) {
if (pattern.startsWith('*') || ctype == pattern) // Fast lane
return true;
auto patternParts = pattern.split('/');
Q_ASSERT_X(patternParts.size() <= 2, __FUNCTION__,
"BaseJob: Expected content type should have up to two"
" /-separated parts; violating pattern: "
+ pattern);
if (ctype.split('/').front() == patternParts.front()
&& patternParts.back() == "*")
return true; // Exact match already went on fast lane
}
return false;
}
BaseJob::Status BaseJob::doCheckReply(QNetworkReply* reply) const
{
// QNetworkReply error codes seem to be flawed when it comes to HTTP;
// see, e.g., https://github.com/quotient-im/libQuotient/issues/200
// so check genuine HTTP codes. The below processing is based on
// https://en.wikipedia.org/wiki/List_of_HTTP_status_codes
const auto httpCodeHeader =
reply->attribute(QNetworkRequest::HttpStatusCodeAttribute);
if (!httpCodeHeader.isValid()) {
qCWarning(d->logCat).noquote()
<< "No valid HTTP headers from" << d->dumpRequest();
return { NetworkError, reply->errorString() };
}
const auto httpCode = httpCodeHeader.toInt();
if (httpCode / 100 == 2) // 2xx
{
if (reply->isFinished())
qCInfo(d->logCat).noquote() << httpCode << "<-" << d->dumpRequest();
if (!checkContentType(reply->rawHeader("Content-Type"),
d->expectedContentTypes))
return { UnexpectedResponseTypeWarning,
"Unexpected content type of the response" };
return NoError;
}
if (reply->isFinished())
qCWarning(d->logCat).noquote() << httpCode << "<-" << d->dumpRequest();
auto message = reply->errorString();
if (message.isEmpty())
message = reply->attribute(QNetworkRequest::HttpReasonPhraseAttribute)
.toString();
return Status::fromHttpCode(httpCode, message);
}
void BaseJob::checkReply() { setStatus(doCheckReply(d->reply.data())); }
BaseJob::Status BaseJob::parseReply(QNetworkReply* reply)
{
d->rawResponse = reply->readAll();
QJsonParseError error { 0, QJsonParseError::MissingObject };
const auto& json = QJsonDocument::fromJson(d->rawResponse, &error);
if (error.error == QJsonParseError::NoError)
return parseJson(json);
return { IncorrectResponseError, error.errorString() };
}
BaseJob::Status BaseJob::parseJson(const QJsonDocument&) { return Success; }
BaseJob::Status BaseJob::parseError(QNetworkReply* /*reply*/,
const QJsonObject& errorJson)
{
const auto errCode = errorJson.value("errcode"_ls).toString();
if (error() == TooManyRequestsError || errCode == "M_LIMIT_EXCEEDED") {
QString msg = tr("Too many requests");
int64_t retryAfterMs = errorJson.value("retry_after_ms"_ls).toInt(-1);
if (retryAfterMs >= 0)
msg += tr(", next retry advised after %1 ms").arg(retryAfterMs);
else // We still have to figure some reasonable interval
retryAfterMs = getNextRetryMs();
d->connection->limitRate(milliseconds(retryAfterMs));
return { TooManyRequestsError, msg };
}
if (errCode == "M_CONSENT_NOT_GIVEN") {
d->errorUrl = errorJson.value("consent_uri"_ls).toString();
return { UserConsentRequiredError };
}
if (errCode == "M_UNSUPPORTED_ROOM_VERSION"
|| errCode == "M_INCOMPATIBLE_ROOM_VERSION")
return { UnsupportedRoomVersionError,
errorJson.contains("room_version"_ls)
? tr("Requested room version: %1")
.arg(errorJson.value("room_version"_ls).toString())
: errorJson.value("error"_ls).toString() };
if (errCode == "M_CANNOT_LEAVE_SERVER_NOTICE_ROOM")
return { CannotLeaveRoom,
tr("It's not allowed to leave a server notices room") };
if (errCode == "M_USER_DEACTIVATED")
return { UserDeactivated };
// Not localisable on the client side
if (errorJson.contains("error"_ls))
d->status.message = errorJson.value("error"_ls).toString();
return d->status;
}
void BaseJob::stop()
{
// This method is (also) used to semi-finalise the job before retrying; so
// stop the timeout timer but keep the retry timer running.
d->timer.stop();
if (d->reply) {
d->reply->disconnect(this); // Ignore whatever comes from the reply
if (d->reply->isRunning()) {
qCWarning(d->logCat)
<< this << "stopped without ready network reply";
d->reply->abort(); // Keep the reply object in case clients need it
}
} else
qCWarning(d->logCat) << this << "stopped with empty network reply";
}
void BaseJob::finishJob()
{
stop();
if (error() == TooManyRequests) {
emit rateLimited();
d->connection->submit(this);
return;
}
if (error() == Unauthorised && !d->needsToken
&& !d->connection->accessToken().isEmpty()) {
// Rerun with access token (extension of the spec while
// https://github.com/matrix-org/matrix-doc/issues/701 is pending)
d->connection->setNeedsToken(objectName());
qCWarning(d->logCat) << this << "re-running with authentication";
emit retryScheduled(d->retriesTaken, 0);
d->connection->submit(this);
return;
}
if ((error() == NetworkError || error() == Timeout)
&& d->retriesTaken < d->maxRetries) {
// TODO: The whole retrying thing should be put to Connection(Manager)
// otherwise independently retrying jobs make a bit of notification
// storm towards the UI.
const seconds retryIn = error() == Timeout ? 0s : getNextRetryInterval();
++d->retriesTaken;
qCWarning(d->logCat).nospace() << this << ": retry #" << d->retriesTaken
<< " in " << retryIn.count() << " s";
d->retryTimer.start(retryIn);
emit retryScheduled(d->retriesTaken, milliseconds(retryIn).count());
return;
}
Q_ASSERT(status().code != Pending);
// Notify those interested in any completion of the job including abandon()
emit finished(this);
emit result(this); // abandon() doesn't emit this
if (error())
emit failure(this);
else
emit success(this);
deleteLater();
}
seconds BaseJob::getCurrentTimeout() const
{
return d->getCurrentTimeoutConfig().jobTimeout;
}
BaseJob::duration_ms_t BaseJob::getCurrentTimeoutMs() const
{
return milliseconds(getCurrentTimeout()).count();
}
seconds BaseJob::getNextRetryInterval() const
{
return d->getCurrentTimeoutConfig().nextRetryInterval;
}
BaseJob::duration_ms_t BaseJob::getNextRetryMs() const
{
return milliseconds(getNextRetryInterval()).count();
}
milliseconds BaseJob::timeToRetry() const
{
return d->retryTimer.isActive() ? d->retryTimer.remainingTimeAsDuration()
: 0s;
}
BaseJob::duration_ms_t BaseJob::millisToRetry() const
{
return timeToRetry().count();
}
int BaseJob::maxRetries() const { return d->maxRetries; }
void BaseJob::setMaxRetries(int newMaxRetries)
{
d->maxRetries = newMaxRetries;
}
BaseJob::Status BaseJob::status() const { return d->status; }
QByteArray BaseJob::rawData(int bytesAtMost) const
{
return bytesAtMost > 0 && d->rawResponse.size() > bytesAtMost
? d->rawResponse.left(bytesAtMost)
: d->rawResponse;
}
const QByteArray& BaseJob::rawData() const { return d->rawResponse; }
QString BaseJob::rawDataSample(int bytesAtMost) const
{
auto data = rawData(bytesAtMost);
Q_ASSERT(data.size() <= d->rawResponse.size());
return data.size() == d->rawResponse.size()
? data
: data
+ tr("...(truncated, %Ln bytes in total)",
"Comes after trimmed raw network response",
d->rawResponse.size());
}
QString BaseJob::statusCaption() const
{
switch (d->status.code) {
case Success:
return tr("Success");
case Pending:
return tr("Request still pending response");
case UnexpectedResponseTypeWarning:
return tr("Warning: Unexpected response type");
case Abandoned:
return tr("Request was abandoned");
case NetworkError:
return tr("Network problems");
case TimeoutError:
return tr("Request timed out");
case Unauthorised:
return tr("Unauthorised request");
case ContentAccessError:
return tr("Access error");
case NotFoundError:
return tr("Not found");
case IncorrectRequestError:
return tr("Invalid request");
case IncorrectResponseError:
return tr("Response could not be parsed");
case TooManyRequestsError:
return tr("Too many requests");
case RequestNotImplementedError:
return tr("Function not implemented by the server");
case NetworkAuthRequiredError:
return tr("Network authentication required");
case UserConsentRequiredError:
return tr("User consent required");
case UnsupportedRoomVersionError:
return tr("The server does not support the needed room version");
default:
return tr("Request failed");
}
}
int BaseJob::error() const { return d->status.code; }
QString BaseJob::errorString() const { return d->status.message; }
QUrl BaseJob::errorUrl() const { return d->errorUrl; }
void BaseJob::setStatus(Status s)
{
// The crash that led to this code has been reported in
// https://github.com/quotient-im/Quaternion/issues/566 - basically,
// when cleaning up children of a deleted Connection, there's a chance
// of pending jobs being abandoned, calling setStatus(Abandoned).
// There's nothing wrong with this; however, the safety check for
// cleartext access tokens below uses d->connection - which is a dangling
// pointer.
// To alleviate that, a stricter condition is applied, that for Abandoned
// and to-be-Abandoned jobs the status message will be disregarded entirely.
// We could rectify the situation by making d->connection a QPointer<>
// (and deriving ConnectionData from QObject, respectively) but it's
// a too edge case for the hassle.
if (d->status == s)
return;
if (d->status.code == Abandoned || s.code == Abandoned)
s.message.clear();
if (!s.message.isEmpty() && d->connection
&& !d->connection->accessToken().isEmpty())
s.message.replace(d->connection->accessToken(), "(REDACTED)");
if (!s.good())
qCWarning(d->logCat) << this << "status" << s;
d->status = std::move(s);
emit statusChanged(d->status);
}
void BaseJob::setStatus(int code, QString message)
{
setStatus({ code, std::move(message) });
}
void BaseJob::abandon()
{
beforeAbandon(d->reply ? d->reply.data() : nullptr);
d->timer.stop();
d->retryTimer.stop(); // In case abandon() was called between retries
setStatus(Abandoned);
if (d->reply)
d->reply->disconnect(this);
emit finished(this);
deleteLater();
}
void BaseJob::timeout()
{
setStatus(TimeoutError, "The job has timed out");
finishJob();
}
void BaseJob::setLoggingCategory(LoggingCategory lcf) { d->logCat = lcf; }