nextcloud-desktop/test/syncenginetestutils.h
Olivier Goffart 857afd32df
PropagateDownload: Don't discard the body of error message
We want to keep the body so we can get the message from it
(Issue #6459)

TestDownload::testErrorMessage did not fail because the FakeErrorReply
did not emit readyRead and did not implement bytesAvailable.

Signed-off-by: Kevin Ottens <kevin.ottens@nextcloud.com>
2020-12-15 10:57:55 +01:00

1069 lines
38 KiB
C++

/*
* This software is in the public domain, furnished "as is", without technical
* support, and with no warranty, express or implied, as to its usefulness for
* any purpose.
*
*/
#pragma once
#include "account.h"
#include "creds/abstractcredentials.h"
#include "logger.h"
#include "filesystem.h"
#include "syncengine.h"
#include "common/syncjournaldb.h"
#include <QDir>
#include <QNetworkReply>
#include <QMap>
#include <QtTest>
#include <memory>
/*
* TODO: In theory we should use QVERIFY instead of Q_ASSERT for testing, but this
* only works when directly called from a QTest :-(
*/
static const QUrl sRootUrl("owncloud://somehost/owncloud/remote.php/webdav/");
static const QUrl sRootUrl2("owncloud://somehost/owncloud/remote.php/dav/files/admin/");
static const QUrl sUploadUrl("owncloud://somehost/owncloud/remote.php/dav/uploads/admin/");
inline QString getFilePathFromUrl(const QUrl &url) {
QString path = url.path();
if (path.startsWith(sRootUrl.path()))
return path.mid(sRootUrl.path().length());
if (path.startsWith(sRootUrl2.path()))
return path.mid(sRootUrl2.path().length());
if (path.startsWith(sUploadUrl.path()))
return path.mid(sUploadUrl.path().length());
return {};
}
inline QString generateEtag() {
return QString::number(QDateTime::currentDateTimeUtc().toMSecsSinceEpoch(), 16);
}
inline QByteArray generateFileId() {
return QByteArray::number(qrand(), 16);
}
class PathComponents : public QStringList {
public:
PathComponents(const char *path) : PathComponents{QString::fromUtf8(path)} {}
PathComponents(const QString &path) : QStringList{path.split('/', QString::SkipEmptyParts)} { }
PathComponents(const QStringList &pathComponents) : QStringList{pathComponents} { }
PathComponents parentDirComponents() const {
return PathComponents{mid(0, size() - 1)};
}
PathComponents subComponents() const { return PathComponents{mid(1)}; }
QString pathRoot() const { return first(); }
QString fileName() const { return last(); }
};
class FileModifier
{
public:
virtual ~FileModifier() = default;
virtual void remove(const QString &relativePath) = 0;
virtual void insert(const QString &relativePath, qint64 size = 64, char contentChar = 'W') = 0;
virtual void setContents(const QString &relativePath, char contentChar) = 0;
virtual void appendByte(const QString &relativePath) = 0;
virtual void mkdir(const QString &relativePath) = 0;
virtual void rename(const QString &relativePath, const QString &relativeDestinationDirectory) = 0;
virtual void setModTime(const QString &relativePath, const QDateTime &modTime) = 0;
};
class DiskFileModifier : public FileModifier
{
QDir _rootDir;
public:
DiskFileModifier(const QString &rootDirPath) : _rootDir(rootDirPath) { }
void remove(const QString &relativePath) override {
QFileInfo fi{_rootDir.filePath(relativePath)};
if (fi.isFile())
QVERIFY(_rootDir.remove(relativePath));
else
QVERIFY(QDir{fi.filePath()}.removeRecursively());
}
void insert(const QString &relativePath, qint64 size = 64, char contentChar = 'W') override {
QFile file{_rootDir.filePath(relativePath)};
QVERIFY(!file.exists());
file.open(QFile::WriteOnly);
QByteArray buf(1024, contentChar);
for (int x = 0; x < size/buf.size(); ++x) {
file.write(buf);
}
file.write(buf.data(), size % buf.size());
file.close();
// Set the mtime 30 seconds in the past, for some tests that need to make sure that the mtime differs.
OCC::FileSystem::setModTime(file.fileName(), OCC::Utility::qDateTimeToTime_t(QDateTime::currentDateTimeUtc().addSecs(-30)));
QCOMPARE(file.size(), size);
}
void setContents(const QString &relativePath, char contentChar) override {
QFile file{_rootDir.filePath(relativePath)};
QVERIFY(file.exists());
qint64 size = file.size();
file.open(QFile::WriteOnly);
file.write(QByteArray{}.fill(contentChar, size));
}
void appendByte(const QString &relativePath) override {
QFile file{_rootDir.filePath(relativePath)};
QVERIFY(file.exists());
file.open(QFile::ReadWrite);
QByteArray contents = file.read(1);
file.seek(file.size());
file.write(contents);
}
void mkdir(const QString &relativePath) override {
_rootDir.mkpath(relativePath);
}
void rename(const QString &from, const QString &to) override {
QVERIFY(_rootDir.exists(from));
QVERIFY(_rootDir.rename(from, to));
}
void setModTime(const QString &relativePath, const QDateTime &modTime) override {
OCC::FileSystem::setModTime(_rootDir.filePath(relativePath), OCC::Utility::qDateTimeToTime_t(modTime));
}
};
class FileInfo : public FileModifier
{
public:
static FileInfo A12_B12_C12_S12() {
FileInfo fi{QString{}, {
{QStringLiteral("A"), {
{QStringLiteral("a1"), 4},
{QStringLiteral("a2"), 4}
}},
{QStringLiteral("B"), {
{QStringLiteral("b1"), 16},
{QStringLiteral("b2"), 16}
}},
{QStringLiteral("C"), {
{QStringLiteral("c1"), 24},
{QStringLiteral("c2"), 24}
}},
}};
FileInfo sharedFolder{QStringLiteral("S"), {
{QStringLiteral("s1"), 32},
{QStringLiteral("s2"), 32}
}};
sharedFolder.isShared = true;
sharedFolder.children[QStringLiteral("s1")].isShared = true;
sharedFolder.children[QStringLiteral("s2")].isShared = true;
fi.children.insert(sharedFolder.name, std::move(sharedFolder));
return fi;
}
FileInfo() = default;
FileInfo(const QString &name) : name{name} { }
FileInfo(const QString &name, qint64 size) : name{name}, isDir{false}, size{size} { }
FileInfo(const QString &name, qint64 size, char contentChar) : name{name}, isDir{false}, size{size}, contentChar{contentChar} { }
FileInfo(const QString &name, const std::initializer_list<FileInfo> &children) : name{name} {
for (const auto &source : children)
addChild(source);
}
void addChild(const FileInfo &info)
{
auto &dest = this->children[info.name] = info;
dest.parentPath = path();
dest.fixupParentPathRecursively();
}
void remove(const QString &relativePath) override {
const PathComponents pathComponents{relativePath};
FileInfo *parent = findInvalidatingEtags(pathComponents.parentDirComponents());
Q_ASSERT(parent);
parent->children.erase(std::find_if(parent->children.begin(), parent->children.end(),
[&pathComponents](const FileInfo &fi){ return fi.name == pathComponents.fileName(); }));
}
void insert(const QString &relativePath, qint64 size = 64, char contentChar = 'W') override {
create(relativePath, size, contentChar);
}
void setContents(const QString &relativePath, char contentChar) override {
FileInfo *file = findInvalidatingEtags(relativePath);
Q_ASSERT(file);
file->contentChar = contentChar;
}
void appendByte(const QString &relativePath) override {
FileInfo *file = findInvalidatingEtags(relativePath);
Q_ASSERT(file);
file->size += 1;
}
void mkdir(const QString &relativePath) override {
createDir(relativePath);
}
void rename(const QString &oldPath, const QString &newPath) override {
const PathComponents newPathComponents{newPath};
FileInfo *dir = findInvalidatingEtags(newPathComponents.parentDirComponents());
Q_ASSERT(dir);
Q_ASSERT(dir->isDir);
const PathComponents pathComponents{oldPath};
FileInfo *parent = findInvalidatingEtags(pathComponents.parentDirComponents());
Q_ASSERT(parent);
FileInfo fi = parent->children.take(pathComponents.fileName());
fi.parentPath = dir->path();
fi.name = newPathComponents.fileName();
fi.fixupParentPathRecursively();
dir->children.insert(newPathComponents.fileName(), std::move(fi));
}
void setModTime(const QString &relativePath, const QDateTime &modTime) override {
FileInfo *file = findInvalidatingEtags(relativePath);
Q_ASSERT(file);
file->lastModified = modTime;
}
FileInfo *find(const PathComponents &pathComponents, const bool invalidateEtags = false) {
if (pathComponents.isEmpty()) {
if (invalidateEtags)
etag = generateEtag();
return this;
}
QString childName = pathComponents.pathRoot();
auto it = children.find(childName);
if (it != children.end()) {
auto file = it->find(pathComponents.subComponents(), invalidateEtags);
if (file && invalidateEtags)
// Update parents on the way back
etag = file->etag;
return file;
}
return nullptr;
}
FileInfo *createDir(const QString &relativePath) {
const PathComponents pathComponents{relativePath};
FileInfo *parent = findInvalidatingEtags(pathComponents.parentDirComponents());
Q_ASSERT(parent);
FileInfo &child = parent->children[pathComponents.fileName()] = FileInfo{pathComponents.fileName()};
child.parentPath = parent->path();
child.etag = generateEtag();
return &child;
}
FileInfo *create(const QString &relativePath, qint64 size, char contentChar) {
const PathComponents pathComponents{relativePath};
FileInfo *parent = findInvalidatingEtags(pathComponents.parentDirComponents());
Q_ASSERT(parent);
FileInfo &child = parent->children[pathComponents.fileName()] = FileInfo{pathComponents.fileName(), size};
child.parentPath = parent->path();
child.contentChar = contentChar;
child.etag = generateEtag();
return &child;
}
bool operator<(const FileInfo &other) const {
return name < other.name;
}
bool operator==(const FileInfo &other) const {
// Consider files to be equal between local<->remote as a user would.
return name == other.name
&& isDir == other.isDir
&& size == other.size
&& contentChar == other.contentChar
&& children == other.children;
}
QString path() const {
return (parentPath.isEmpty() ? QString() : (parentPath + '/')) + name;
}
void fixupParentPathRecursively() {
auto p = path();
for (auto it = children.begin(); it != children.end(); ++it) {
Q_ASSERT(it.key() == it->name);
it->parentPath = p;
it->fixupParentPathRecursively();
}
}
QString name;
bool isDir = true;
bool isShared = false;
QDateTime lastModified = QDateTime::currentDateTime().addDays(-7);
QString etag = generateEtag();
QByteArray fileId = generateFileId();
QByteArray checksums;
QByteArray extraDavProperties;
qint64 size = 0;
char contentChar = 'W';
// Sorted by name to be able to compare trees
QMap<QString, FileInfo> children;
QString parentPath;
private:
FileInfo *findInvalidatingEtags(const PathComponents &pathComponents) {
return find(pathComponents, true);
}
friend inline QDebug operator<<(QDebug dbg, const FileInfo& fi) {
return dbg << "{ " << fi.path() << ": " << fi.children;
}
};
class FakePropfindReply : public QNetworkReply
{
Q_OBJECT
public:
QByteArray payload;
FakePropfindReply(FileInfo &remoteRootFileInfo, QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply{parent} {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isNull()); // for root, it should be empty
const FileInfo *fileInfo = remoteRootFileInfo.find(fileName);
if (!fileInfo) {
QMetaObject::invokeMethod(this, "respond404", Qt::QueuedConnection);
return;
}
QString prefix = request.url().path().left(request.url().path().size() - fileName.size());
// Don't care about the request and just return a full propfind
const QString davUri{QStringLiteral("DAV:")};
const QString ocUri{QStringLiteral("http://owncloud.org/ns")};
QBuffer buffer{&payload};
buffer.open(QIODevice::WriteOnly);
QXmlStreamWriter xml( &buffer );
xml.writeNamespace(davUri, "d");
xml.writeNamespace(ocUri, "oc");
xml.writeStartDocument();
xml.writeStartElement(davUri, QStringLiteral("multistatus"));
auto writeFileResponse = [&](const FileInfo &fileInfo) {
xml.writeStartElement(davUri, QStringLiteral("response"));
xml.writeTextElement(davUri, QStringLiteral("href"), prefix + fileInfo.path());
xml.writeStartElement(davUri, QStringLiteral("propstat"));
xml.writeStartElement(davUri, QStringLiteral("prop"));
if (fileInfo.isDir) {
xml.writeStartElement(davUri, QStringLiteral("resourcetype"));
xml.writeEmptyElement(davUri, QStringLiteral("collection"));
xml.writeEndElement(); // resourcetype
} else
xml.writeEmptyElement(davUri, QStringLiteral("resourcetype"));
auto gmtDate = fileInfo.lastModified.toUTC();
auto stringDate = QLocale::c().toString(gmtDate, "ddd, dd MMM yyyy HH:mm:ss 'GMT'");
xml.writeTextElement(davUri, QStringLiteral("getlastmodified"), stringDate);
xml.writeTextElement(davUri, QStringLiteral("getcontentlength"), QString::number(fileInfo.size));
xml.writeTextElement(davUri, QStringLiteral("getetag"), fileInfo.etag);
xml.writeTextElement(ocUri, QStringLiteral("permissions"), fileInfo.isShared ? QStringLiteral("SRDNVCKW") : QStringLiteral("RDNVCKW"));
xml.writeTextElement(ocUri, QStringLiteral("id"), fileInfo.fileId);
xml.writeTextElement(ocUri, QStringLiteral("checksums"), fileInfo.checksums);
buffer.write(fileInfo.extraDavProperties);
xml.writeEndElement(); // prop
xml.writeTextElement(davUri, QStringLiteral("status"), "HTTP/1.1 200 OK");
xml.writeEndElement(); // propstat
xml.writeEndElement(); // response
};
writeFileResponse(*fileInfo);
foreach(const FileInfo &childFileInfo, fileInfo->children)
writeFileResponse(childFileInfo);
xml.writeEndElement(); // multistatus
xml.writeEndDocument();
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond() {
setHeader(QNetworkRequest::ContentLengthHeader, payload.size());
setHeader(QNetworkRequest::ContentTypeHeader, "application/xml; charset=utf-8");
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 207);
setFinished(true);
emit metaDataChanged();
if (bytesAvailable())
emit readyRead();
emit finished();
}
Q_INVOKABLE void respond404() {
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 404);
setError(InternalServerError, "Not Found");
emit metaDataChanged();
emit finished();
}
void abort() override { }
qint64 bytesAvailable() const override { return payload.size() + QIODevice::bytesAvailable(); }
qint64 readData(char *data, qint64 maxlen) override {
qint64 len = std::min(qint64{payload.size()}, maxlen);
strncpy(data, payload.constData(), len);
payload.remove(0, len);
return len;
}
};
class FakePutReply : public QNetworkReply
{
Q_OBJECT
FileInfo *fileInfo;
public:
FakePutReply(FileInfo &remoteRootFileInfo, QNetworkAccessManager::Operation op, const QNetworkRequest &request, const QByteArray &putPayload, QObject *parent)
: QNetworkReply{parent} {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isEmpty());
if ((fileInfo = remoteRootFileInfo.find(fileName))) {
fileInfo->size = putPayload.size();
fileInfo->contentChar = putPayload.at(0);
} else {
// Assume that the file is filled with the same character
fileInfo = remoteRootFileInfo.create(fileName, putPayload.size(), putPayload.at(0));
}
if (!fileInfo) {
abort();
return;
}
fileInfo->lastModified = OCC::Utility::qDateTimeFromTime_t(request.rawHeader("X-OC-Mtime").toLongLong());
remoteRootFileInfo.find(fileName, /*invalidateEtags=*/true);
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE virtual void respond()
{
emit uploadProgress(fileInfo->size, fileInfo->size);
setRawHeader("OC-ETag", fileInfo->etag.toLatin1());
setRawHeader("ETag", fileInfo->etag.toLatin1());
setRawHeader("X-OC-MTime", "accepted"); // Prevents Q_ASSERT(!_runningNow) since we'll call PropagateItemJob::done twice in that case.
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 200);
emit metaDataChanged();
emit finished();
}
void abort() override
{
setError(OperationCanceledError, "abort");
emit finished();
}
qint64 readData(char *, qint64) override { return 0; }
};
class FakeMkcolReply : public QNetworkReply
{
Q_OBJECT
FileInfo *fileInfo;
public:
FakeMkcolReply(FileInfo &remoteRootFileInfo, QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply{parent} {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isEmpty());
fileInfo = remoteRootFileInfo.createDir(fileName);
if (!fileInfo) {
abort();
return;
}
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond() {
setRawHeader("OC-FileId", fileInfo->fileId);
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 201);
emit metaDataChanged();
emit finished();
}
void abort() override { }
qint64 readData(char *, qint64) override { return 0; }
};
class FakeDeleteReply : public QNetworkReply
{
Q_OBJECT
public:
FakeDeleteReply(FileInfo &remoteRootFileInfo, QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply{parent} {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isEmpty());
remoteRootFileInfo.remove(fileName);
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond() {
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 204);
emit metaDataChanged();
emit finished();
}
void abort() override { }
qint64 readData(char *, qint64) override { return 0; }
};
class FakeMoveReply : public QNetworkReply
{
Q_OBJECT
public:
FakeMoveReply(FileInfo &remoteRootFileInfo, QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply{parent} {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isEmpty());
QString dest = getFilePathFromUrl(QUrl::fromEncoded(request.rawHeader("Destination")));
Q_ASSERT(!dest.isEmpty());
remoteRootFileInfo.rename(fileName, dest);
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond() {
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 201);
emit metaDataChanged();
emit finished();
}
void abort() override { }
qint64 readData(char *, qint64) override { return 0; }
};
class FakeGetReply : public QNetworkReply
{
Q_OBJECT
public:
const FileInfo *fileInfo;
char payload;
int size;
bool aborted = false;
FakeGetReply(FileInfo &remoteRootFileInfo, QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply{parent} {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isEmpty());
fileInfo = remoteRootFileInfo.find(fileName);
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond() {
if (aborted) {
setError(OperationCanceledError, "Operation Canceled");
emit metaDataChanged();
emit finished();
return;
}
payload = fileInfo->contentChar;
size = fileInfo->size;
setHeader(QNetworkRequest::ContentLengthHeader, size);
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 200);
setRawHeader("OC-ETag", fileInfo->etag.toLatin1());
setRawHeader("ETag", fileInfo->etag.toLatin1());
setRawHeader("OC-FileId", fileInfo->fileId);
emit metaDataChanged();
if (bytesAvailable())
emit readyRead();
emit finished();
}
void abort() override {
aborted = true;
}
qint64 bytesAvailable() const override {
if (aborted)
return 0;
return size + QIODevice::bytesAvailable();
}
qint64 readData(char *data, qint64 maxlen) override {
qint64 len = std::min(qint64{size}, maxlen);
std::fill_n(data, len, payload);
size -= len;
return len;
}
// useful to be public for testing
using QNetworkReply::setRawHeader;
};
class FakeChunkMoveReply : public QNetworkReply
{
Q_OBJECT
FileInfo *fileInfo;
public:
FakeChunkMoveReply(FileInfo &uploadsFileInfo, FileInfo &remoteRootFileInfo,
QNetworkAccessManager::Operation op, const QNetworkRequest &request,
QObject *parent)
: QNetworkReply{ parent }
{
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QString source = getFilePathFromUrl(request.url());
Q_ASSERT(!source.isEmpty());
Q_ASSERT(source.endsWith("/.file"));
source = source.left(source.length() - static_cast<int>(qstrlen("/.file")));
auto sourceFolder = uploadsFileInfo.find(source);
Q_ASSERT(sourceFolder);
Q_ASSERT(sourceFolder->isDir);
int count = 0;
int size = 0;
char payload = '\0';
do {
QString chunkName = QString::number(count).rightJustified(8, '0');
if (!sourceFolder->children.contains(chunkName))
break;
auto &x = sourceFolder->children[chunkName];
Q_ASSERT(!x.isDir);
Q_ASSERT(x.size > 0); // There should not be empty chunks
size += x.size;
Q_ASSERT(!payload || payload == x.contentChar);
payload = x.contentChar;
++count;
} while(true);
Q_ASSERT(count > 1); // There should be at least two chunks, otherwise why would we use chunking?
QCOMPARE(sourceFolder->children.count(), count); // There should not be holes or extra files
QString fileName = getFilePathFromUrl(QUrl::fromEncoded(request.rawHeader("Destination")));
Q_ASSERT(!fileName.isEmpty());
if ((fileInfo = remoteRootFileInfo.find(fileName))) {
QVERIFY(request.hasRawHeader("If")); // The client should put this header
if (request.rawHeader("If") != QByteArray("<" + request.rawHeader("Destination") +
"> ([\"" + fileInfo->etag.toLatin1() + "\"])")) {
QMetaObject::invokeMethod(this, "respondPreconditionFailed", Qt::QueuedConnection);
return;
}
fileInfo->size = size;
fileInfo->contentChar = payload;
} else {
Q_ASSERT(!request.hasRawHeader("If"));
// Assume that the file is filled with the same character
fileInfo = remoteRootFileInfo.create(fileName, size, payload);
}
if (!fileInfo) {
abort();
return;
}
fileInfo->lastModified = OCC::Utility::qDateTimeFromTime_t(request.rawHeader("X-OC-Mtime").toLongLong());
remoteRootFileInfo.find(fileName, /*invalidateEtags=*/true);
QTimer::singleShot(0, this, &FakeChunkMoveReply::respond);
}
Q_INVOKABLE virtual void respond()
{
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 201);
setRawHeader("OC-ETag", fileInfo->etag.toLatin1());
setRawHeader("ETag", fileInfo->etag.toLatin1());
setRawHeader("OC-FileId", fileInfo->fileId);
emit metaDataChanged();
emit finished();
}
Q_INVOKABLE void respondPreconditionFailed() {
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 412);
setError(InternalServerError, "Precondition Failed");
emit metaDataChanged();
emit finished();
}
void abort() override
{
setError(OperationCanceledError, "abort");
emit finished();
}
qint64 readData(char *, qint64) override { return 0; }
};
class FakeErrorReply : public QNetworkReply
{
Q_OBJECT
public:
FakeErrorReply(QNetworkAccessManager::Operation op, const QNetworkRequest &request,
QObject *parent, int httpErrorCode, const QByteArray &body = QByteArray())
: QNetworkReply{parent}, _httpErrorCode(httpErrorCode), _body(body) {
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, httpErrorCode);
setError(InternalServerError, "Internal Server Fake Error");
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond() {
emit metaDataChanged();
emit readyRead();
// finishing can come strictly after readyRead was called
QTimer::singleShot(5, this, &FakeErrorReply::slotSetFinished);
}
// make public to give tests easy interface
using QNetworkReply::setError;
using QNetworkReply::setAttribute;
public slots:
void slotSetFinished() {
setFinished(true);
emit finished();
}
public:
void abort() override { }
qint64 readData(char *buf, qint64 max) override {
max = qMin<qint64>(max, _body.size());
memcpy(buf, _body.constData(), max);
_body = _body.mid(max);
return max;
}
qint64 bytesAvailable() const override {
return _body.size();
}
int _httpErrorCode;
QByteArray _body;
};
// A reply that never responds
class FakeHangingReply : public QNetworkReply
{
Q_OBJECT
public:
FakeHangingReply(QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply(parent)
{
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
}
void abort() override {}
qint64 readData(char *, qint64) override { return 0; }
};
// A delayed reply
template <class OriginalReply>
class DelayedReply : public OriginalReply
{
public:
template <typename... Args>
explicit DelayedReply(quint64 delayMS, Args &&... args)
: OriginalReply(std::forward<Args>(args)...)
, _delayMs(delayMS)
{
}
quint64 _delayMs;
void respond() override
{
QTimer::singleShot(_delayMs, static_cast<OriginalReply *>(this), [this] {
// Explicit call to bases's respond();
this->OriginalReply::respond();
});
}
};
class FakeQNAM : public QNetworkAccessManager
{
public:
using Override = std::function<QNetworkReply *(Operation, const QNetworkRequest &, QIODevice *)>;
private:
FileInfo _remoteRootFileInfo;
FileInfo _uploadFileInfo;
// maps a path to an HTTP error
QHash<QString, int> _errorPaths;
// monitor requests and optionally provide custom replies
Override _override;
public:
FakeQNAM(FileInfo initialRoot) : _remoteRootFileInfo{std::move(initialRoot)} { }
FileInfo &currentRemoteState() { return _remoteRootFileInfo; }
FileInfo &uploadState() { return _uploadFileInfo; }
QHash<QString, int> &errorPaths() { return _errorPaths; }
void setOverride(const Override &override) { _override = override; }
protected:
QNetworkReply *createRequest(Operation op, const QNetworkRequest &request,
QIODevice *outgoingData = nullptr) {
if (_override) {
if (auto reply = _override(op, request, outgoingData))
return reply;
}
const QString fileName = getFilePathFromUrl(request.url());
Q_ASSERT(!fileName.isNull());
if (_errorPaths.contains(fileName))
return new FakeErrorReply{op, request, this, _errorPaths[fileName]};
bool isUpload = request.url().path().startsWith(sUploadUrl.path());
FileInfo &info = isUpload ? _uploadFileInfo : _remoteRootFileInfo;
auto verb = request.attribute(QNetworkRequest::CustomVerbAttribute);
if (verb == "PROPFIND")
// Ignore outgoingData always returning somethign good enough, works for now.
return new FakePropfindReply{info, op, request, this};
else if (verb == QLatin1String("GET") || op == QNetworkAccessManager::GetOperation)
return new FakeGetReply{info, op, request, this};
else if (verb == QLatin1String("PUT") || op == QNetworkAccessManager::PutOperation)
return new FakePutReply{info, op, request, outgoingData->readAll(), this};
else if (verb == QLatin1String("MKCOL"))
return new FakeMkcolReply{info, op, request, this};
else if (verb == QLatin1String("DELETE") || op == QNetworkAccessManager::DeleteOperation)
return new FakeDeleteReply{info, op, request, this};
else if (verb == QLatin1String("MOVE") && !isUpload)
return new FakeMoveReply{info, op, request, this};
else if (verb == QLatin1String("MOVE") && isUpload)
return new FakeChunkMoveReply{ info, _remoteRootFileInfo, op, request, this };
else {
qDebug() << verb << outgoingData;
Q_UNREACHABLE();
}
}
};
class FakeCredentials : public OCC::AbstractCredentials
{
QNetworkAccessManager *_qnam;
public:
FakeCredentials(QNetworkAccessManager *qnam) : _qnam{qnam} { }
virtual QString authType() const { return "test"; }
virtual QString user() const { return "admin"; }
virtual QNetworkAccessManager *createQNAM() const { return _qnam; }
virtual bool ready() const { return true; }
virtual void fetchFromKeychain() { }
virtual void askFromUser() { }
virtual bool stillValid(QNetworkReply *) { return true; }
virtual void persist() { }
virtual void invalidateToken() { }
virtual void forgetSensitiveData() { }
};
class FakeFolder
{
QTemporaryDir _tempDir;
DiskFileModifier _localModifier;
// FIXME: Clarify ownership, double delete
FakeQNAM *_fakeQnam;
OCC::AccountPtr _account;
std::unique_ptr<OCC::SyncJournalDb> _journalDb;
std::unique_ptr<OCC::SyncEngine> _syncEngine;
public:
FakeFolder(const FileInfo &fileTemplate)
: _localModifier(_tempDir.path())
{
// Needs to be done once
OCC::SyncEngine::minimumFileAgeForUpload = 0;
OCC::Logger::instance()->setLogFile("-");
QDir rootDir{_tempDir.path()};
qDebug() << "FakeFolder operating on" << rootDir;
toDisk(rootDir, fileTemplate);
_fakeQnam = new FakeQNAM(fileTemplate);
_account = OCC::Account::create();
_account->setUrl(QUrl(QStringLiteral("http://admin:admin@localhost/owncloud")));
_account->setCredentials(new FakeCredentials{_fakeQnam});
_account->setDavDisplayName("fakename");
_journalDb = std::make_unique<OCC::SyncJournalDb>(localPath() + "._sync_test.db");
_syncEngine = std::make_unique<OCC::SyncEngine>(_account, localPath(), "", _journalDb.get());
// A new folder will update the local file state database on first sync.
// To have a state matching what users will encounter, we have to a sync
// using an identical local/remote file tree first.
syncOnce();
}
OCC::SyncEngine &syncEngine() const { return *_syncEngine; }
OCC::SyncJournalDb &syncJournal() const { return *_journalDb; }
FileModifier &localModifier() { return _localModifier; }
FileInfo &remoteModifier() { return _fakeQnam->currentRemoteState(); }
FileInfo currentLocalState() {
QDir rootDir{_tempDir.path()};
FileInfo rootTemplate;
fromDisk(rootDir, rootTemplate);
rootTemplate.fixupParentPathRecursively();
return rootTemplate;
}
FileInfo currentRemoteState() { return _fakeQnam->currentRemoteState(); }
FileInfo &uploadState() { return _fakeQnam->uploadState(); }
struct ErrorList {
FakeQNAM *_qnam;
void append(const QString &path, int error = 500)
{ _qnam->errorPaths().insert(path, error); }
void clear() { _qnam->errorPaths().clear(); }
};
ErrorList serverErrorPaths() { return {_fakeQnam}; }
void setServerOverride(const FakeQNAM::Override &override) { _fakeQnam->setOverride(override); }
QString localPath() const {
// SyncEngine wants a trailing slash
if (_tempDir.path().endsWith('/'))
return _tempDir.path();
return _tempDir.path() + '/';
}
void scheduleSync() {
// Have to be done async, else, an error before exec() does not terminate the event loop.
QMetaObject::invokeMethod(_syncEngine.get(), "startSync", Qt::QueuedConnection);
}
void execUntilBeforePropagation() {
QSignalSpy spy(_syncEngine.get(), SIGNAL(aboutToPropagate(SyncFileItemVector&)));
QVERIFY(spy.wait());
}
void execUntilItemCompleted(const QString &relativePath) {
QSignalSpy spy(_syncEngine.get(), SIGNAL(itemCompleted(const SyncFileItemPtr &)));
QElapsedTimer t;
t.start();
while (t.elapsed() < 5000) {
spy.clear();
QVERIFY(spy.wait());
for(const QList<QVariant> &args : spy) {
auto item = args[0].value<OCC::SyncFileItemPtr>();
if (item->destination() == relativePath)
return;
}
}
QVERIFY(false);
}
bool execUntilFinished() {
QSignalSpy spy(_syncEngine.get(), SIGNAL(finished(bool)));
bool ok = spy.wait(3600000);
Q_ASSERT(ok && "Sync timed out");
return spy[0][0].toBool();
}
bool syncOnce() {
scheduleSync();
return execUntilFinished();
}
private:
static void toDisk(QDir &dir, const FileInfo &templateFi) {
foreach (const FileInfo &child, templateFi.children) {
if (child.isDir) {
QDir subDir(dir);
dir.mkdir(child.name);
subDir.cd(child.name);
toDisk(subDir, child);
} else {
QFile file{dir.filePath(child.name)};
file.open(QFile::WriteOnly);
file.write(QByteArray{}.fill(child.contentChar, child.size));
file.close();
OCC::FileSystem::setModTime(file.fileName(), OCC::Utility::qDateTimeToTime_t(child.lastModified));
}
}
}
static void fromDisk(QDir &dir, FileInfo &templateFi) {
foreach (const QFileInfo &diskChild, dir.entryInfoList(QDir::AllEntries | QDir::NoDotAndDotDot)) {
if (diskChild.isDir()) {
QDir subDir = dir;
subDir.cd(diskChild.fileName());
FileInfo &subFi = templateFi.children[diskChild.fileName()] = FileInfo{diskChild.fileName()};
fromDisk(subDir, subFi);
} else {
QFile f{diskChild.filePath()};
f.open(QFile::ReadOnly);
auto content = f.read(1);
if (content.size() == 0) {
qWarning() << "Empty file at:" << diskChild.filePath();
continue;
}
char contentChar = content.at(0);
templateFi.children.insert(diskChild.fileName(), FileInfo{diskChild.fileName(), diskChild.size(), contentChar});
}
}
}
};
/* Return the FileInfo for a conflict file for the specified relative filename */
inline const FileInfo *findConflict(FileInfo &dir, const QString &filename)
{
QFileInfo info(filename);
const FileInfo *parentDir = dir.find(info.path());
if (!parentDir)
return nullptr;
QString start = info.baseName() + " (conflicted copy";
for (const auto &item : parentDir->children) {
if (item.name.startsWith(start)) {
return &item;
}
}
return nullptr;
}
// QTest::toString overloads
namespace OCC {
inline char *toString(const SyncFileStatus &s) {
return QTest::toString(QString("SyncFileStatus(" + s.toSocketAPIString() + ")"));
}
}
inline void addFiles(QStringList &dest, const FileInfo &fi)
{
if (fi.isDir) {
dest += QString("%1 - dir").arg(fi.name);
foreach (const FileInfo &fi, fi.children)
addFiles(dest, fi);
} else {
dest += QString("%1 - %2 %3-bytes").arg(fi.name).arg(fi.size).arg(fi.contentChar);
}
}
inline char *toString(const FileInfo &fi)
{
QStringList files;
foreach (const FileInfo &fi, fi.children)
addFiles(files, fi);
return QTest::toString(QString("FileInfo with %1 files(%2)").arg(files.size()).arg(files.join(", ")));
}