desktop/test/testasyncop.cpp

237 строки
11 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.
*
*/
#include <QtTest>
#include "syncenginetestutils.h"
#include <syncengine.h>
using namespace OCC;
class FakeAsyncReply : public QNetworkReply
{
Q_OBJECT
QByteArray _pollLocation;
public:
FakeAsyncReply(const QByteArray &pollLocation, QNetworkAccessManager::Operation op, const QNetworkRequest &request, QObject *parent)
: QNetworkReply{ parent }
, _pollLocation(pollLocation)
{
setRequest(request);
setUrl(request.url());
setOperation(op);
open(QIODevice::ReadOnly);
QMetaObject::invokeMethod(this, "respond", Qt::QueuedConnection);
}
Q_INVOKABLE void respond()
{
setAttribute(QNetworkRequest::HttpStatusCodeAttribute, 202);
setRawHeader("OC-JobStatus-Location", _pollLocation);
emit metaDataChanged();
emit finished();
}
void abort() override {}
qint64 readData(char *, qint64) override { return 0; }
};
class TestAsyncOp : public QObject
{
Q_OBJECT
private slots:
void asyncUploadOperations()
{
FakeFolder fakeFolder{ FileInfo::A12_B12_C12_S12() };
fakeFolder.syncEngine().account()->setCapabilities({ { "dav", QVariantMap{ { "chunking", "1.0" } } } });
// Reduce max chunk size a bit so we get more chunks
SyncOptions options;
options._maxChunkSize = 20 * 1000;
fakeFolder.syncEngine().setSyncOptions(options);
int nGET = 0;
// This test is made of several testcases.
// the testCases maps a filename to a couple of callback.
// When a file is uploaded, the fake server will always return the 202 code, and will set
// the `perform` functor to what needs to be done to complete the transaction.
// The testcase consist of the `pollRequest` which will be called when the sync engine
// calls the poll url.
struct TestCase
{
using PollRequest_t = std::function<QNetworkReply *(TestCase *, const QNetworkRequest &request)>;
PollRequest_t pollRequest;
std::function<FileInfo *()> perform = nullptr;
};
QHash<QString, TestCase> testCases;
fakeFolder.setServerOverride([&](QNetworkAccessManager::Operation op, const QNetworkRequest &request, QIODevice *outgoingData) -> QNetworkReply * {
auto path = request.url().path();
if (op == QNetworkAccessManager::GetOperation && path.startsWith("/async-poll/")) {
auto file = path.mid(sizeof("/async-poll/") - 1);
Q_ASSERT(testCases.contains(file));
auto &testCase = testCases[file];
return testCase.pollRequest(&testCase, request);
}
if (op == QNetworkAccessManager::PutOperation && !path.contains("/uploads/")) {
// Not chunking
auto file = getFilePathFromUrl(request.url());
Q_ASSERT(testCases.contains(file));
auto &testCase = testCases[file];
Q_ASSERT(!testCase.perform);
auto putPayload = outgoingData->readAll();
testCase.perform = [putPayload, request, &fakeFolder] {
return FakePutReply::perform(fakeFolder.remoteModifier(), request, putPayload);
};
return new FakeAsyncReply("/async-poll/" + file.toUtf8(), op, request, &fakeFolder.syncEngine());
} else if (request.attribute(QNetworkRequest::CustomVerbAttribute) == "MOVE") {
QString file = getFilePathFromUrl(QUrl::fromEncoded(request.rawHeader("Destination")));
Q_ASSERT(testCases.contains(file));
auto &testCase = testCases[file];
Q_ASSERT(!testCase.perform);
testCase.perform = [request, &fakeFolder] {
return FakeChunkMoveReply::perform(fakeFolder.uploadState(), fakeFolder.remoteModifier(), request);
};
return new FakeAsyncReply("/async-poll/" + file.toUtf8(), op, request, &fakeFolder.syncEngine());
} else if (op == QNetworkAccessManager::GetOperation) {
nGET++;
}
return nullptr;
});
// Callback to be used to finalize the transaction and return the success
auto successCallback = [](TestCase *tc, const QNetworkRequest &request) {
tc->pollRequest = [](TestCase *, const QNetworkRequest &) -> QNetworkReply * { std::abort(); }; // shall no longer be called
FileInfo *info = tc->perform();
QByteArray body = "{ \"status\":\"finished\", \"ETag\":\"\\\"" + info->etag.toUtf8() + "\\\"\", \"fileId\":\"" + info->fileId + "\"}\n";
return new FakePayloadReply(QNetworkAccessManager::GetOperation, request, body, nullptr);
};
// Callback that never finishes
auto waitForeverCallback = [](TestCase *, const QNetworkRequest &request) {
QByteArray body = "{\"status\":\"started\"}\n";
return new FakePayloadReply(QNetworkAccessManager::GetOperation, request, body, nullptr);
};
// Callback that simulate an error.
auto errorCallback = [](TestCase *tc, const QNetworkRequest &request) {
tc->pollRequest = [](TestCase *, const QNetworkRequest &) -> QNetworkReply * { std::abort(); }; // shall no longer be called;
QByteArray body = "{\"status\":\"error\",\"errorCode\":500,\"errorMessage\":\"TestingErrors\"}\n";
return new FakePayloadReply(QNetworkAccessManager::GetOperation, request, body, nullptr);
};
// This lambda takes another functor as a parameter, and returns a callback that will
// tell the client needs to poll again, and further call to the poll url will call the
// given callback
auto waitAndChain = [](const TestCase::PollRequest_t &chain) {
return [chain](TestCase *tc, const QNetworkRequest &request) {
tc->pollRequest = chain;
QByteArray body = "{\"status\":\"started\"}\n";
return new FakePayloadReply(QNetworkAccessManager::GetOperation, request, body, nullptr);
};
};
// Create a testcase by creating a file of a given size locally and assigning it a callback
auto insertFile = [&](const QString &file, int size, TestCase::PollRequest_t cb) {
fakeFolder.localModifier().insert(file, size);
testCases[file] = { std::move(cb) };
};
fakeFolder.localModifier().mkdir("success");
insertFile("success/chunked_success", options._maxChunkSize * 3, successCallback);
insertFile("success/single_success", 300, successCallback);
insertFile("success/chunked_patience", options._maxChunkSize * 3,
waitAndChain(waitAndChain(successCallback)));
insertFile("success/single_patience", 300,
waitAndChain(waitAndChain(successCallback)));
fakeFolder.localModifier().mkdir("err");
insertFile("err/chunked_error", options._maxChunkSize * 3, errorCallback);
insertFile("err/single_error", 300, errorCallback);
insertFile("err/chunked_error2", options._maxChunkSize * 3, waitAndChain(errorCallback));
insertFile("err/single_error2", 300, waitAndChain(errorCallback));
// First sync should finish by itself.
// All the things in "success/" should be transfered, the things in "err/" not
QVERIFY(!fakeFolder.syncOnce());
QCOMPARE(nGET, 0);
QCOMPARE(*fakeFolder.currentLocalState().find("success"),
*fakeFolder.currentRemoteState().find("success"));
testCases.clear();
testCases["err/chunked_error"] = { successCallback };
testCases["err/chunked_error2"] = { successCallback };
testCases["err/single_error"] = { successCallback };
testCases["err/single_error2"] = { successCallback };
fakeFolder.localModifier().mkdir("waiting");
insertFile("waiting/small", 300, waitForeverCallback);
insertFile("waiting/willNotConflict", 300, waitForeverCallback);
insertFile("waiting/big", options._maxChunkSize * 3,
waitAndChain(waitAndChain([&](TestCase *tc, const QNetworkRequest &request) {
QTimer::singleShot(0, &fakeFolder.syncEngine(), &SyncEngine::abort);
return waitAndChain(waitForeverCallback)(tc, request);
})));
fakeFolder.syncJournal().wipeErrorBlacklist();
// This second sync will redo the files that had errors
// But the waiting folder will not complete before it is aborted.
QVERIFY(!fakeFolder.syncOnce());
QCOMPARE(nGET, 0);
QCOMPARE(*fakeFolder.currentLocalState().find("err"),
*fakeFolder.currentRemoteState().find("err"));
testCases["waiting/small"].pollRequest = waitAndChain(waitAndChain(successCallback));
testCases["waiting/big"].pollRequest = waitAndChain(successCallback);
testCases["waiting/willNotConflict"].pollRequest =
[&fakeFolder, &successCallback](TestCase *tc, const QNetworkRequest &request) {
auto &remoteModifier = fakeFolder.remoteModifier(); // successCallback destroys the capture
auto reply = successCallback(tc, request);
// This is going to succeed, and after we just change the file.
// This should not be a conflict, but this should be downloaded in the
// next sync
remoteModifier.appendByte("waiting/willNotConflict");
return reply;
};
int nPUT = 0;
int nMOVE = 0;
int nDELETE = 0;
fakeFolder.setServerOverride([&](QNetworkAccessManager::Operation op, const QNetworkRequest &request, QIODevice *) -> QNetworkReply * {
auto path = request.url().path();
if (op == QNetworkAccessManager::GetOperation && path.startsWith("/async-poll/")) {
auto file = path.mid(sizeof("/async-poll/") - 1);
Q_ASSERT(testCases.contains(file));
auto &testCase = testCases[file];
return testCase.pollRequest(&testCase, request);
} else if (op == QNetworkAccessManager::PutOperation) {
nPUT++;
} else if (op == QNetworkAccessManager::GetOperation) {
nGET++;
} else if (op == QNetworkAccessManager::DeleteOperation) {
nDELETE++;
} else if (request.attribute(QNetworkRequest::CustomVerbAttribute) == "MOVE") {
nMOVE++;
}
return nullptr;
});
// This last sync will do the waiting stuff
QVERIFY(fakeFolder.syncOnce());
QCOMPARE(nGET, 1); // "waiting/willNotConflict"
QCOMPARE(nPUT, 0);
QCOMPARE(nMOVE, 0);
QCOMPARE(nDELETE, 0);
QCOMPARE(fakeFolder.currentLocalState(), fakeFolder.currentRemoteState());
}
};
QTEST_GUILESS_MAIN(TestAsyncOp)
#include "testasyncop.moc"