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libreoffice-online/test/TileCacheTests.cpp
Miklos Vajna 3186597097 log: avoid logging after shutdown on all log levels 
This can happen on an assertion failure, and causes noise while looking
for real memory errors.

Also disable an unstable test, it's not clear that it passes depending
on how loaded the machine is (just increasing timeouts doesn't seem to
help).

Signed-off-by: Miklos Vajna <vmiklos@collabora.com>
Change-Id: I049bd0a06f41e2d43702ec12a2c35944bc5200d8
2021-08-12 10:02:48 +02:00

2016 lines
81 KiB
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/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/.
*/
#include <config.h>
#include "WebSocketSession.hpp"
#include <Poco/Net/AcceptCertificateHandler.h>
#include <Poco/Net/InvalidCertificateHandler.h>
#include <Poco/Net/SSLManager.h>
#include <cppunit/extensions/HelperMacros.h>
#include <Common.hpp>
#include <Protocol.hpp>
#include <LOOLWebSocket.hpp>
#include <MessageQueue.hpp>
#include <Png.hpp>
#include <TileCache.hpp>
#include <Unit.hpp>
#include <Util.hpp>
#include <countloolkits.hpp>
#include <helpers.hpp>
#include <test.hpp>
#include <sstream>
using namespace helpers;
namespace CPPUNIT_NS
{
template<>
struct assertion_traits<std::vector<char>>
{
static bool equal(const std::vector<char>& x, const std::vector<char>& y)
{
return x == y;
}
static std::string toString(const std::vector<char>& x)
{
const std::string text = '"' + (!x.empty() ? std::string(x.data(), x.size()) : "<empty>") + '"';
return text;
}
};
}
/// TileCache unit-tests.
class TileCacheTests : public CPPUNIT_NS::TestFixture
{
const Poco::URI _uri;
Poco::Net::HTTPResponse _response;
std::shared_ptr<SocketPoll> _socketPoll;
CPPUNIT_TEST_SUITE(TileCacheTests);
CPPUNIT_TEST(testDesc);
CPPUNIT_TEST(testSimple);
CPPUNIT_TEST(testSimpleCombine);
CPPUNIT_TEST(testSize);
CPPUNIT_TEST(testCancelTiles);
// unstable
// CPPUNIT_TEST(testCancelTilesMultiView);
CPPUNIT_TEST(testDisconnectMultiView);
CPPUNIT_TEST(testUnresponsiveClient);
CPPUNIT_TEST(testImpressTiles);
CPPUNIT_TEST(testClientPartImpress);
CPPUNIT_TEST(testClientPartCalc);
// FIXME CPPUNIT_TEST(testTilesRenderedJustOnce);
// CPPUNIT_TEST(testTilesRenderedJustOnceMultiClient); // always fails, seems complicated to fix
#if ENABLE_DEBUG
CPPUNIT_TEST(testSimultaneousTilesRenderedJustOnce);
#endif
CPPUNIT_TEST(testLoad12ods);
CPPUNIT_TEST(testTileInvalidateWriter);
CPPUNIT_TEST(testTileInvalidateWriterPage);
CPPUNIT_TEST(testTileInvalidateCalc);
// temporarily disable
//CPPUNIT_TEST(testTileInvalidatePartCalc);
//CPPUNIT_TEST(testTileInvalidatePartImpress);
CPPUNIT_TEST(testTileRequestByInvalidation);
CPPUNIT_TEST(testTileRequestByZoom);
CPPUNIT_TEST(testTileWireIDHandling);
CPPUNIT_TEST(testTileProcessed);
CPPUNIT_TEST(testTileInvalidatedOutside);
CPPUNIT_TEST(testTileBeingRenderedHandling);
CPPUNIT_TEST(testWireIDFilteringOnWSDSide);
// unstable
//CPPUNIT_TEST(testLimitTileVersionsOnFly);
CPPUNIT_TEST_SUITE_END();
void testDesc();
void testSimple();
void testSimpleCombine();
void testSize();
void testCancelTiles();
void testCancelTilesMultiView();
void testDisconnectMultiView();
void testUnresponsiveClient();
void testImpressTiles();
void testClientPartImpress();
void testClientPartCalc();
void testTilesRenderedJustOnce();
void testTilesRenderedJustOnceMultiClient();
void testSimultaneousTilesRenderedJustOnce();
void testLoad12ods();
void testTileInvalidateWriter();
void testTileInvalidateWriterPage();
void testWriterAnyKey();
void testTileInvalidateCalc();
void testTileInvalidatePartCalc();
void testTileInvalidatePartImpress();
void testTileRequestByInvalidation();
void testTileRequestByZoom();
void testTileWireIDHandling();
void testTileProcessed();
void testTileInvalidatedOutside();
void testTileBeingRenderedHandling();
void testWireIDFilteringOnWSDSide();
void testLimitTileVersionsOnFly();
void checkTiles(std::shared_ptr<http::WebSocketSession>& socket, const std::string& docType,
const std::string& testname);
void checkTiles(std::shared_ptr<LOOLWebSocket>& socket, const std::string& type,
const std::string& testname);
void requestTiles(std::shared_ptr<http::WebSocketSession>& socket, const std::string& docType,
const int part, const int docWidth, const int docHeight,
const std::string& testname);
void requestTiles(std::shared_ptr<LOOLWebSocket>& socket, const std::string& docType,
const int part, const int docWidth, const int docHeight,
const std::string& testname);
void checkBlackTiles(std::shared_ptr<http::WebSocketSession>& socket, const int /*part*/,
const int /*docWidth*/, const int /*docHeight*/,
const std::string& testname);
void checkBlackTiles(std::shared_ptr<LOOLWebSocket>& socket, const int part, const int docWidth,
const int docHeight, const std::string& testname);
void checkBlackTile(std::stringstream& tile);
public:
TileCacheTests()
: _uri(helpers::getTestServerURI())
, _socketPoll(std::make_shared<SocketPoll>("TileCachePoll"))
{
#if ENABLE_SSL
Poco::Net::initializeSSL();
// Just accept the certificate anyway for testing purposes
Poco::SharedPtr<Poco::Net::InvalidCertificateHandler> invalidCertHandler = new Poco::Net::AcceptCertificateHandler(false);
Poco::Net::Context::Params sslParams;
Poco::Net::Context::Ptr sslContext = new Poco::Net::Context(Poco::Net::Context::CLIENT_USE, sslParams);
Poco::Net::SSLManager::instance().initializeClient(nullptr, invalidCertHandler, sslContext);
#endif
}
#if ENABLE_SSL
~TileCacheTests()
{
Poco::Net::uninitializeSSL();
}
#endif
void setUp()
{
resetTestStartTime();
testCountHowManyLoolkits();
resetTestStartTime();
_socketPoll->startThread();
}
void tearDown()
{
_socketPoll->joinThread();
resetTestStartTime();
testNoExtraLoolKitsLeft();
resetTestStartTime();
}
};
void TileCacheTests::testDesc()
{
TileDesc descA = TileDesc(0, 0, 256, 256, 0, 0, 3200, 3200, /* ignored in cache */ 0, 1234, 1, true);
TileDesc descB = TileDesc(0, 0, 256, 256, 0, 0, 3200, 3200, /* ignored in cache */ 1, 1235, 2, false);
TileDescCacheCompareEq pred;
LOK_ASSERT_MESSAGE("TileDesc versions do match", descA.getVersion() != descB.getVersion());
LOK_ASSERT_MESSAGE("TileDesc should match, ignoring unimportant fields", pred(descA, descB));
}
void TileCacheTests::testSimple()
{
if (isStandalone())
{
if (!UnitWSD::init(UnitWSD::UnitType::Wsd, ""))
throw std::runtime_error("Failed to load wsd unit test library.");
}
// Create TileCache and pretend the file was modified as recently as
// now, so it discards the cached data.
TileCache tc("doc.ods", std::chrono::system_clock::time_point());
int nviewid = 0;
int part = 0;
int width = 256;
int height = 256;
int tilePosX = 0;
int tilePosY = 0;
int tileWidth = 3840;
int tileHeight = 3840;
TileDesc tile(nviewid, part, width, height, tilePosX, tilePosY, tileWidth, tileHeight, -1, 0, -1, false);
// No Cache
TileCache::Tile tileData = tc.lookupTile(tile);
LOK_ASSERT_MESSAGE("found tile when none was expected", !tileData);
// Cache Tile
const int size = 1024;
const std::vector<char> data = genRandomData(size);
tc.saveTileAndNotify(tile, data.data(), size);
// Find Tile
tileData = tc.lookupTile(tile);
LOK_ASSERT_MESSAGE("tile not found when expected", tileData);
LOK_ASSERT_MESSAGE("cached tile corrupted", data == *tileData);
// Invalidate Tiles
tc.invalidateTiles("invalidatetiles: EMPTY", nviewid);
// No Cache
tileData = tc.lookupTile(tile);
LOK_ASSERT_MESSAGE("found tile when none was expected", !tileData);
}
void TileCacheTests::testSimpleCombine()
{
const std::string testname = "simpleCombine-";
std::string documentPath, documentURL;
getDocumentPathAndURL("hello.odt", documentPath, documentURL, testname);
// First.
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "1 ");
sendTextFrame(socket1, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840 tileposy=0,0 tilewidth=3840 tileheight=3840");
std::vector<char> tile1a = getResponseMessage(socket1, "tile:", testname + "1 ");
LOK_ASSERT_MESSAGE("did not receive a tile: message as expected", !tile1a.empty());
std::vector<char> tile1b = getResponseMessage(socket1, "tile:", testname + "1 ");
LOK_ASSERT_MESSAGE("did not receive a tile: message as expected", !tile1b.empty());
sendTextFrame(socket1, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840 tileposy=0,0 tilewidth=3840 tileheight=3840");
tile1a = getResponseMessage(socket1, "tile:", testname + "1 ");
LOK_ASSERT_MESSAGE("did not receive a tile: message as expected", !tile1a.empty());
tile1b = getResponseMessage(socket1, "tile:", testname + "1 ");
LOK_ASSERT_MESSAGE("did not receive a tile: message as expected", !tile1b.empty());
// Second.
TST_LOG("Connecting second client.");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "2 ");
sendTextFrame(socket2, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840 tileposy=0,0 tilewidth=3840 tileheight=3840");
std::vector<char> tile2a = getResponseMessage(socket2, "tile:", testname + "2 ");
LOK_ASSERT_MESSAGE("did not receive a tile: message as expected", !tile2a.empty());
std::vector<char> tile2b = getResponseMessage(socket2, "tile:", testname + "2 ");
LOK_ASSERT_MESSAGE("did not receive a tile: message as expected", !tile2b.empty());
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testSize()
{
// Create TileCache and pretend the file was modified as recently as
// now, so it discards the cached data.
TileCache tc("doc.ods", std::chrono::system_clock::time_point());
int nviewid = 0;
int part = 0;
int width = 256;
int height = 256;
int tilePosX = 0;
int tileWidth = 3840;
int tileHeight = 3840;
TileWireId id = 0;
const std::vector<char> data = genRandomData(4096);
// Churn the cache somewhat
size_t maxSize = (data.size() + sizeof (TileDesc)) * 10;
tc.setMaxCacheSize(maxSize);
for (int tilePosY = 0; tilePosY < 20; tilePosY++)
{
TileDesc tile(nviewid, part, width, height, tilePosX, tilePosY * tileHeight,
tileWidth, tileHeight, -1, 0, -1, false);
tile.setWireId(id++);
tc.saveTileAndNotify(tile, data.data(), data.size());
}
LOK_ASSERT_MESSAGE("tile cache too big", tc.getMemorySize() < maxSize);
}
void TileCacheTests::testCancelTiles()
{
const char* testname = "cancelTiles ";
// The tile response can race past the canceltiles,
// so be forgiving to avoid spurious failures.
constexpr size_t repeat = 4;
for (size_t i = 1; i <= repeat; ++i)
{
TST_LOG("cancelTiles try #" << i);
// Wait to clear previous sessions.
countLoolKitProcesses(InitialLoolKitCount);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "setclientpart.ods", _uri, testname);
// Request a huge tile, and cancel immediately.
sendTextFrame(socket,
"tilecombine nviewid=0 part=0 width=2560 height=2560 tileposx=0 tileposy=0 "
"tilewidth=38400 tileheight=38400",
testname);
sendTextFrame(socket, "canceltiles", testname);
const auto res = getResponseString(socket, "tile:", testname, std::chrono::seconds(1));
if (!res.empty())
{
if (i == repeat)
{
LOK_ASSERT_MESSAGE("Did not expect getting message [" + res + "].", res.empty());
}
TST_LOG("Unexpected: [" << res << ']');
}
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket->waitForDisconnection(std::chrono::seconds(5)));
if (res.empty())
break;
}
}
void TileCacheTests::testCancelTilesMultiView()
{
const std::string testname = "testCancelTilesMultiView-";
std::string documentPath, documentURL;
getDocumentPathAndURL("setclientpart.ods", documentPath, documentURL, testname);
// The tile response can race past the canceltiles,
// so be forgiving to avoid spurious failures.
constexpr size_t repeat = 4;
for (size_t j = 1; j <= repeat; ++j)
{
TST_LOG("cancelTilesMultiView try #" << j);
// Wait to clear previous sessions.
countLoolKitProcesses(InitialLoolKitCount);
// Request a huge tile, and cancel immediately.
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "1 ");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "2 ");
sendTextFrame(socket1,
"tilecombine nviewid=0 part=0 width=256 height=256 "
"tileposx=0,3840,7680,11520,0,3840,7680,11520 "
"tileposy=0,0,0,0,3840,3840,3840,3840 tilewidth=3840 tileheight=3840",
testname + "1 ");
sendTextFrame(socket2,
"tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680,0 "
"tileposy=0,0,0,22520 tilewidth=3840 tileheight=3840",
testname + "2 ");
sendTextFrame(socket1, "canceltiles", testname + "1 ");
const auto res1
= getResponseString(socket1, "tile:", testname + "1 ", std::chrono::milliseconds(500));
if (!res1.empty())
{
if (j == repeat)
{
LOK_ASSERT_MESSAGE("Did not expect getting message [" + res1 + "].", res1.empty());
}
TST_LOG("Unexpected: [" << res1 << ']');
continue;
}
for (int i = 0; i < 4; ++i)
{
getTileMessage(socket2, testname + "2 ");
}
// Should never get more than 4 tiles on socket2.
// Though in practice we get the rendering result from socket1's request and ours.
// This happens because we currently always send back tiles even if they are of old version
// because we want to be responsive, since we've rendered them anyway.
const auto res2
= getResponseString(socket2, "tile:", testname + "2 ", std::chrono::milliseconds(500));
if (!res2.empty())
{
if (j == repeat)
{
LOK_ASSERT_MESSAGE("Did not expect getting message [" + res2 + "].", res1.empty());
}
TST_LOG("Unexpected: [" << res2 << ']');
continue;
}
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
if (res1.empty() && res2.empty())
{
break;
}
}
}
void TileCacheTests::testDisconnectMultiView()
{
const char* testname = "testDisconnectMultiView";
std::string documentPath, documentURL;
getDocumentPathAndURL("setclientpart.ods", documentPath, documentURL, "disconnectMultiView ");
constexpr size_t repeat = 3;
for (size_t j = 1; j <= repeat; ++j)
{
TST_LOG("disconnectMultiView try #" << j);
// Wait to clear previous sessions.
countLoolKitProcesses(InitialLoolKitCount);
// Request a huge tile, and cancel immediately.
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, "disconnectMultiView-1 ");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, "disconnectMultiView-2 ", true);
sendTextFrame(socket1,
"tilecombine nviewid=0 part=0 width=256 height=256 "
"tileposx=0,3840,7680,11520,0,3840,7680,11520 "
"tileposy=0,0,0,0,3840,3840,3840,3840 tilewidth=3840 tileheight=3840",
"cancelTilesMultiView-1 ");
sendTextFrame(socket2,
"tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680,0 "
"tileposy=0,0,0,22520 tilewidth=3840 tileheight=3840",
"cancelTilesMultiView-2 ");
socket1->asyncShutdown();
for (int i = 0; i < 4; ++i)
{
getTileMessage(socket2, "disconnectMultiView-2 ");
}
// Should never get more than 4 tiles on socket2.
getResponseString(socket2, "tile:", "disconnectMultiView-2 ",
std::chrono::milliseconds(500));
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
}
void TileCacheTests::testUnresponsiveClient()
{
const std::string testname = "unresponsiveClient-";
TST_LOG("testUnresponsiveClient.");
std::string documentPath, documentURL;
getDocumentPathAndURL("hello.odt", documentPath, documentURL, testname);
TST_LOG("Connecting first client.");
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "1 ");
TST_LOG("Connecting second client.");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "2 ");
// Pathologically request tiles and fail to read (say slow connection).
// Meanwhile, verify that others can get all tiles fine.
// TODO: Track memory consumption to verify we don't buffer too much.
std::ostringstream oss;
for (int i = 0; i < 1000; ++i)
{
oss << Util::encodeId(Util::rng::getNext(), 6);
}
const std::string documentContents = oss.str();
for (int x = 0; x < 8; ++x)
{
// Invalidate to force re-rendering.
sendTextFrame(socket2, "uno .uno:SelectAll", testname);
sendTextFrame(socket2, "uno .uno:Delete", testname);
assertResponseString(socket2, "invalidatetiles:", testname + "2 ");
sendTextFrame(socket2, "paste mimetype=text/html\n" + documentContents, testname + "2 ");
assertResponseString(socket2, "invalidatetiles:", testname + "2 ");
// Ask for tiles and don't read!
sendTextFrame(socket1, "tilecombine nviewid=0 part=0 width=256 height=256 "
"tileposx=0,3840,7680,11520,0,3840,7680,11520 "
"tileposy=0,0,0,0,3840,3840,3840,3840 tilewidth=3840 "
"tileheight=3840",
testname + "1 ");
// Verify that we get all 8 tiles.
sendTextFrame(socket2, "tilecombine nviewid=0 part=0 width=256 height=256 "
"tileposx=0,3840,7680,11520,0,3840,7680,11520 "
"tileposy=0,0,0,0,3840,3840,3840,3840 tilewidth=3840 "
"tileheight=3840",
testname + "2 ");
for (int i = 0; i < 8; ++i)
{
std::vector<char> tile = getResponseMessage(socket2, "tile:", testname + "2 ");
LOK_ASSERT_MESSAGE("Did not receive tile #" + std::to_string(i+1) + " of 8: message as expected", !tile.empty());
}
/// Send canceltiles message to clear tiles-on-fly list, otherwise wsd waits for tileprocessed messages
sendTextFrame(socket2, "canceltiles", testname + "2 ");
}
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testImpressTiles()
{
try
{
const std::string testname = "impressTiles ";
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "setclientpart.odp", _uri, testname);
sendTextFrame(socket,
"tile nviewid=0 part=0 width=180 height=135 tileposx=0 tileposy=0 "
"tilewidth=15875 tileheight=11906 id=0",
testname);
getTileMessage(socket, testname);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
catch (const Poco::Exception& exc)
{
LOK_ASSERT_FAIL(exc.displayText());
}
}
void TileCacheTests::testClientPartImpress()
{
try
{
const std::string testname = "clientPartImpress ";
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "setclientpart.odp", _uri, testname);
checkTiles(socket, "presentation", testname);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
catch (const Poco::Exception& exc)
{
LOK_ASSERT_FAIL(exc.displayText());
}
}
void TileCacheTests::testClientPartCalc()
{
try
{
const std::string testname = "clientPartCalc ";
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "setclientpart.ods", _uri, testname);
checkTiles(socket, "spreadsheet", testname);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
catch (const Poco::Exception& exc)
{
LOK_ASSERT_FAIL(exc.displayText());
}
}
void TileCacheTests::testTilesRenderedJustOnce()
{
const char* testname = "tilesRenderdJustOnce ";
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "with_comment.odp", _uri, testname);
assertResponseString(socket, "statechanged: .uno:AcceptTrackedChange=", testname);
for (int i = 0; i < 10; ++i)
{
// Get initial rendercount.
sendTextFrame(socket, "ping", testname);
const auto ping1 = assertResponseString(socket, "pong", testname);
int renderCount1 = 0;
LOK_ASSERT(LOOLProtocol::getTokenIntegerFromMessage(ping1, "rendercount", renderCount1));
LOK_ASSERT_EQUAL(i * 3, renderCount1);
// Modify.
sendText(socket, "a", testname);
assertResponseString(socket, "invalidatetiles:", testname);
// Get 3 tiles.
sendTextFrame(socket, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname);
assertResponseString(socket, "tile:", testname);
assertResponseString(socket, "tile:", testname);
assertResponseString(socket, "tile:", testname);
// Get new rendercount.
sendTextFrame(socket, "ping", testname);
const auto ping2 = assertResponseString(socket, "pong", testname);
int renderCount2 = 0;
LOK_ASSERT(LOOLProtocol::getTokenIntegerFromMessage(ping2, "rendercount", renderCount2));
LOK_ASSERT_EQUAL((i+1) * 3, renderCount2);
// Get same 3 tiles.
sendTextFrame(socket, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname);
const auto tile1 = assertResponseString(socket, "tile:", testname);
std::string renderId1;
LOOLProtocol::getTokenStringFromMessage(tile1, "renderid", renderId1);
LOK_ASSERT_EQUAL(std::string("cached"), renderId1);
const auto tile2 = assertResponseString(socket, "tile:", testname);
std::string renderId2;
LOOLProtocol::getTokenStringFromMessage(tile2, "renderid", renderId2);
LOK_ASSERT_EQUAL(std::string("cached"), renderId2);
const auto tile3 = assertResponseString(socket, "tile:", testname);
std::string renderId3;
LOOLProtocol::getTokenStringFromMessage(tile3, "renderid", renderId3);
LOK_ASSERT_EQUAL(std::string("cached"), renderId3);
// Get new rendercount.
sendTextFrame(socket, "ping", testname);
const auto ping3 = assertResponseString(socket, "pong", testname);
int renderCount3 = 0;
LOK_ASSERT(LOOLProtocol::getTokenIntegerFromMessage(ping3, "rendercount", renderCount3));
LOK_ASSERT_EQUAL(renderCount2, renderCount3);
}
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTilesRenderedJustOnceMultiClient()
{
const std::string testname = "tilesRenderdJustOnceMultiClient";
const auto testname1 = testname + "-1 ";
const auto testname2 = testname + "-2 ";
const auto testname3 = testname + "-3 ";
const auto testname4 = testname + "-4 ";
std::string documentPath, documentURL;
getDocumentPathAndURL("with_comment.odt", documentPath, documentURL, testname);
TST_LOG("Connecting first client.");
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname1);
TST_LOG("Connecting second client.");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname2);
TST_LOG("Connecting third client.");
std::shared_ptr<http::WebSocketSession> socket3
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname3);
TST_LOG("Connecting fourth client.");
std::shared_ptr<http::WebSocketSession> socket4
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname4);
for (int i = 0; i < 10; ++i)
{
// No tiles at this point.
assertNotInResponse(socket1, "tile:", testname1);
assertNotInResponse(socket2, "tile:", testname2);
assertNotInResponse(socket3, "tile:", testname3);
assertNotInResponse(socket4, "tile:", testname4);
// Get initial rendercount.
sendTextFrame(socket1, "ping", testname1);
const auto ping1 = assertResponseString(socket1, "pong", testname1);
int renderCount1 = 0;
LOK_ASSERT(LOOLProtocol::getTokenIntegerFromMessage(ping1, "rendercount", renderCount1));
LOK_ASSERT_EQUAL(i * 3, renderCount1);
// Modify.
sendText(socket1, "a", testname1);
assertResponseString(socket1, "invalidatetiles:", testname1);
// Get 3 tiles.
sendTextFrame(socket1, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname1);
assertResponseString(socket1, "tile:", testname1);
assertResponseString(socket1, "tile:", testname1);
assertResponseString(socket1, "tile:", testname1);
assertResponseString(socket2, "invalidatetiles:", testname2);
sendTextFrame(socket2, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname2);
assertResponseString(socket2, "tile:", testname2);
assertResponseString(socket2, "tile:", testname2);
assertResponseString(socket2, "tile:", testname2);
assertResponseString(socket3, "invalidatetiles:", testname3);
sendTextFrame(socket3, "tilecombine nviewid=0 part=0 nviewid=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname3);
assertResponseString(socket3, "tile:", testname3);
assertResponseString(socket3, "tile:", testname3);
assertResponseString(socket3, "tile:", testname3);
assertResponseString(socket4, "invalidatetiles:", testname4);
sendTextFrame(socket4, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname4);
assertResponseString(socket4, "tile:", testname4);
assertResponseString(socket4, "tile:", testname4);
assertResponseString(socket4, "tile:", testname4);
// Get new rendercount.
sendTextFrame(socket1, "ping", testname1);
const auto ping2 = assertResponseString(socket1, "pong", testname1);
int renderCount2 = 0;
LOK_ASSERT(LOOLProtocol::getTokenIntegerFromMessage(ping2, "rendercount", renderCount2));
LOK_ASSERT_EQUAL((i+1) * 3, renderCount2);
// Get same 3 tiles.
sendTextFrame(socket1, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840", testname1);
const auto tile1 = assertResponseString(socket1, "tile:", testname1);
std::string renderId1;
LOOLProtocol::getTokenStringFromMessage(tile1, "renderid", renderId1);
LOK_ASSERT_EQUAL(std::string("cached"), renderId1);
const auto tile2 = assertResponseString(socket1, "tile:", testname1);
std::string renderId2;
LOOLProtocol::getTokenStringFromMessage(tile2, "renderid", renderId2);
LOK_ASSERT_EQUAL(std::string("cached"), renderId2);
const auto tile3 = assertResponseString(socket1, "tile:", testname1);
std::string renderId3;
LOOLProtocol::getTokenStringFromMessage(tile3, "renderid", renderId3);
LOK_ASSERT_EQUAL(std::string("cached"), renderId3);
// Get new rendercount.
sendTextFrame(socket1, "ping", testname1);
const auto ping3 = assertResponseString(socket1, "pong", testname1);
int renderCount3 = 0;
LOK_ASSERT(LOOLProtocol::getTokenIntegerFromMessage(ping3, "rendercount", renderCount3));
LOK_ASSERT_EQUAL(renderCount2, renderCount3);
}
socket1->asyncShutdown();
socket2->asyncShutdown();
socket3->asyncShutdown();
socket4->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 3",
socket3->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 4",
socket4->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testSimultaneousTilesRenderedJustOnce()
{
const std::string testname = "testSimultaneousTilesRenderedJustOnce-";
std::string documentPath, documentURL;
getDocumentPathAndURL("hello.odt", documentPath, documentURL, testname);
TST_LOG("Connecting first client.");
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "1 ");
TST_LOG("Connecting second client.");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname + "2 ");
// Wait for the invalidatetile events to pass, otherwise they
// remove our tile subscription.
assertResponseString(socket1, "statechanged:", "client1 ");
assertResponseString(socket2, "statechanged:", "client2 ");
sendTextFrame(socket1, "tile nviewid=0 part=42 width=400 height=400 tileposx=1000 tileposy=2000 tilewidth=3000 tileheight=3000");
sendTextFrame(socket2, "tile nviewid=0 part=42 width=400 height=400 tileposx=1000 tileposy=2000 tilewidth=3000 tileheight=3000");
const auto response1 = assertResponseString(socket1, "tile:", "client1 ");
const auto response2 = assertResponseString(socket2, "tile:", "client2 ");
if (!response1.empty() && !response2.empty())
{
std::string renderId1;
LOOLProtocol::getTokenStringFromMessage(response1, "renderid", renderId1);
std::string renderId2;
LOOLProtocol::getTokenStringFromMessage(response2, "renderid", renderId2);
LOK_ASSERT(renderId1 == renderId2 ||
(renderId1 == "cached" && renderId2 != "cached") ||
(renderId1 != "cached" && renderId2 == "cached"));
}
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testLoad12ods()
{
try
{
const char* testname = "load12ods ";
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "load12.ods", _uri, testname);
int docSheet = -1;
int docSheets = 0;
int docHeight = 0;
int docWidth = 0;
int docViewId = -1;
// check document size
sendTextFrame(socket, "status");
const auto response = assertResponseString(socket, "status:", testname);
parseDocSize(response.substr(7), "spreadsheet", docSheet, docSheets, docWidth, docHeight, docViewId);
checkBlackTiles(socket, docSheet, docWidth, docWidth, testname);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
catch (const Poco::Exception& exc)
{
LOK_ASSERT_FAIL(exc.displayText());
}
catch (...)
{
LOK_ASSERT_FAIL("Unexpected exception thrown during ods load");
}
}
void TileCacheTests::checkBlackTile(std::stringstream& tile)
{
png_uint_32 height = 0;
png_uint_32 width = 0;
png_uint_32 rowBytes = 0;
std::vector<png_bytep> rows = Png::decodePNG(tile, height, width, rowBytes);
png_uint_32 black = 0;
for (png_uint_32 itRow = 0; itRow < height; ++itRow)
{
png_uint_32 itCol = 0;
while (itCol <= rowBytes)
{
png_byte R = rows[itRow][itCol + 0];
png_byte G = rows[itRow][itCol + 1];
png_byte B = rows[itRow][itCol + 2];
png_byte A = rows[itRow][itCol + 3];
if (R == 0x00 && G == 0x00 && B == 0x00 && A == 0xff)
{
++black;
}
itCol += 4;
}
}
LOK_ASSERT_MESSAGE("The tile is 100% black", black != height * width);
assert(height * width != 0);
LOK_ASSERT_MESSAGE("The tile is 90% black", (black * 100) / (height * width) < 90);
}
void TileCacheTests::checkBlackTiles(std::shared_ptr<http::WebSocketSession>& socket,
const int /*part*/, const int /*docWidth*/,
const int /*docHeight*/, const std::string& testname)
{
// Check the last row of tiles to verify that the tiles
// render correctly and there are no black tiles.
// Current cap of table size ends at 257280 twips (for load12.ods),
// otherwise 2035200 should be rendered successfully.
const char* req = "tile nviewid=0 part=0 width=256 height=256 tileposx=0 tileposy=253440 "
"tilewidth=3840 tileheight=3840";
sendTextFrame(socket, req);
const std::vector<char> tile = getResponseMessage(socket, "tile:", testname);
if (!tile.size())
{
LOK_ASSERT_FAIL("No tile returned to checkBlackTiles - failed load ?");
return;
}
const std::string firstLine = LOOLProtocol::getFirstLine(tile);
#if 0
std::fstream outStream("/tmp/black.png", std::ios::out);
outStream.write(tile.data() + firstLine.size() + 1, tile.size() - firstLine.size() - 1);
outStream.close();
#endif
std::stringstream streamTile;
std::copy(tile.begin() + firstLine.size() + 1, tile.end(),
std::ostream_iterator<char>(streamTile));
checkBlackTile(streamTile);
}
void TileCacheTests::checkBlackTiles(std::shared_ptr<LOOLWebSocket>& socket, const int /*part*/,
const int /*docWidth*/, const int /*docHeight*/,
const std::string& testname)
{
// Check the last row of tiles to verify that the tiles
// render correctly and there are no black tiles.
// Current cap of table size ends at 257280 twips (for load12.ods),
// otherwise 2035200 should be rendered successfully.
const char* req = "tile nviewid=0 part=0 width=256 height=256 tileposx=0 tileposy=253440 tilewidth=3840 tileheight=3840";
sendTextFrame(socket, req);
const std::vector<char> tile = getResponseMessage(socket, "tile:", testname);
if (!tile.size())
{
LOK_ASSERT_FAIL("No tile returned to checkBlackTiles - failed load ?");
return;
}
const std::string firstLine = LOOLProtocol::getFirstLine(tile);
#if 0
std::fstream outStream("/tmp/black.png", std::ios::out);
outStream.write(tile.data() + firstLine.size() + 1, tile.size() - firstLine.size() - 1);
outStream.close();
#endif
std::stringstream streamTile;
std::copy(tile.begin() + firstLine.size() + 1, tile.end(), std::ostream_iterator<char>(streamTile));
checkBlackTile(streamTile);
}
void TileCacheTests::testTileInvalidateWriter()
{
const char* testname = "tileInvalidateWriter ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
std::string text = "Test. Now go 3 \"Enters\":\n\n\nNow after the enters, goes this text";
for (char ch : text)
{
sendChar(socket, ch, skNone, testname); // Send ordinary characters and wait for response -> one tile invalidation for each
assertResponseString(socket, "invalidatetiles:", testname);
}
text = "\n\n\n";
for (char ch : text)
{
sendChar(socket, ch, skCtrl, testname); // Send 3 Ctrl+Enter -> 3 new pages
assertResponseString(socket, "invalidatetiles:", testname);
}
text = "abcde";
for (char ch : text)
{
sendChar(socket, ch, skNone, testname);
assertResponseString(socket, "invalidatetiles:", testname);
}
// While extra invalidates are not desirable, they are inevitable at the moment.
//LOK_ASSERT_MESSAGE("received unexpected invalidatetiles: message", getResponseMessage(socket, "invalidatetiles:").empty());
// TODO: implement a random-sequence "monkey test"
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileInvalidateWriterPage()
{
const char* testname = "tileInvalidateWriterPage ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
sendChar(socket, '\n', skCtrl, testname); // Send Ctrl+Enter (page break).
assertResponseString(socket, "invalidatetiles:", testname);
sendTextFrame(socket, "uno .uno:InsertTable { \"Columns\": { \"type\": \"long\",\"value\": 3 }, \"Rows\": { \"type\": \"long\",\"value\": 2 }}", testname);
const auto res = assertResponseString(socket, "invalidatetiles:", testname);
int part = -1;
LOK_ASSERT_MESSAGE("No part# in invalidatetiles message.",
LOOLProtocol::getTokenIntegerFromMessage(res, "part", part));
LOK_ASSERT_EQUAL(0, part);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
// This isn't yet used
void TileCacheTests::testWriterAnyKey()
{
const char* testname = "writerAnyKey ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Now test "usual" keycodes (TODO: whole 32-bit range)
for (int i=0; i<0x1000; ++i)
{
std::stringstream ss("Keycode ");
ss << i;
std::string s = ss.str();
std::stringstream fn("saveas url=");
fn << documentURL << i << ".odt format= options=";
std::string f = fn.str();
const int istart = 474;
sendText(socket, "\n"+s+"\n", testname);
sendKeyEvent(socket, "input", 0, i, testname);
sendKeyEvent(socket, "up", 0, i, testname);
sendText(socket, "\nEnd "+s+"\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Shift:\n", testname);
sendKeyEvent(socket, "input", 0, i|skShift, testname);
sendKeyEvent(socket, "up", 0, i|skShift, testname);
sendText(socket, "\nEnd "+s+" With Shift\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Ctrl:\n", testname);
sendKeyEvent(socket, "input", 0, i|skCtrl, testname);
sendKeyEvent(socket, "up", 0, i|skCtrl, testname);
sendText(socket, "\nEnd "+s+" With Ctrl\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Alt:\n", testname);
sendKeyEvent(socket, "input", 0, i|skAlt, testname);
sendKeyEvent(socket, "up", 0, i|skAlt, testname);
sendText(socket, "\nEnd "+s+" With Alt\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Shift+Ctrl:\n", testname);
sendKeyEvent(socket, "input", 0, i|skShift|skCtrl, testname);
sendKeyEvent(socket, "up", 0, i|skShift|skCtrl, testname);
sendText(socket, "\nEnd "+s+" With Shift+Ctrl\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Shift+Alt:\n", testname);
sendKeyEvent(socket, "input", 0, i|skShift|skAlt, testname);
sendKeyEvent(socket, "up", 0, i|skShift|skAlt, testname);
sendText(socket, "\nEnd "+s+" With Shift+Alt\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Ctrl+Alt:\n", testname);
sendKeyEvent(socket, "input", 0, i|skCtrl|skAlt, testname);
sendKeyEvent(socket, "up", 0, i|skCtrl|skAlt, testname);
sendText(socket, "\nEnd "+s+" With Ctrl+Alt\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
sendText(socket, "\n"+s+" With Shift+Ctrl+Alt:\n", testname);
sendKeyEvent(socket, "input", 0, i|skShift|skCtrl|skAlt, testname);
sendKeyEvent(socket, "up", 0, i|skShift|skCtrl|skAlt, testname);
sendText(socket, "\nEnd "+s+" With Shift+Ctrl+Alt\n", testname);
if (i>=istart)
sendTextFrame(socket, f);
// This is to allow server to process the input, and check that everything is still OK
sendTextFrame(socket, "status", testname);
getResponseMessage(socket, "status:", testname);
}
// sendTextFrame(socket, "saveas url=file:///tmp/emptyempty.odt format= options=");
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileInvalidateCalc()
{
const std::string testname = "tileInvalidateCalc ";
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, "empty.ods", _uri, testname);
std::string text = "Test. Now go 3 \"Enters\": Now after the enters, goes this text";
for (char ch : text)
{
sendChar(socket, ch, skNone, testname); // Send ordinary characters -> one tile invalidation for each
assertResponseString(socket, "invalidatetiles:", testname);
}
TST_LOG("Sending enters");
text = "\n\n\n";
for (char ch : text)
{
sendChar(socket, ch, skCtrl, testname); // Send 3 Ctrl+Enter -> 3 new pages; I see 3 tiles invalidated for each
assertResponseString(socket, "invalidatetiles:", testname);
}
text = "abcde";
for (char ch : text)
{
sendChar(socket, ch, skNone, testname);
assertResponseString(socket, "invalidatetiles:", testname);
}
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileInvalidatePartCalc()
{
const std::string filename = "setclientpart.ods";
const std::string testname = "tileInvalidatePartCalc";
const std::string testname1 = testname + "-1 ";
const std::string testname2 = testname + "-2 ";
std::string documentPath, documentURL;
getDocumentPathAndURL(filename, documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname1);
sendTextFrame(socket1, "setclientpart part=2", testname1);
assertResponseString(socket1, "setpart:", testname1);
sendTextFrame(socket1, "mouse type=buttondown x=1500 y=1500 count=1 buttons=1 modifier=0", testname1);
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname2);
sendTextFrame(socket2, "setclientpart part=5", testname2);
assertResponseString(socket2, "setpart:", testname2);
sendTextFrame(socket2, "mouse type=buttondown x=1500 y=1500 count=1 buttons=1 modifier=0", testname2);
static const std::string text = "Some test";
for (char ch : text)
{
sendChar(socket1, ch, skNone, testname);
sendChar(socket2, ch, skNone, testname);
const auto response1 = assertResponseString(socket1, "invalidatetiles:", testname1);
int value1;
LOOLProtocol::getTokenIntegerFromMessage(response1, "part", value1);
LOK_ASSERT_EQUAL(2, value1);
const auto response2 = assertResponseString(socket2, "invalidatetiles:", testname2);
int value2;
LOOLProtocol::getTokenIntegerFromMessage(response2, "part", value2);
LOK_ASSERT_EQUAL(5, value2);
}
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileInvalidatePartImpress()
{
const std::string filename = "setclientpart.odp";
const std::string testname = "tileInvalidatePartImpress";
const std::string testname1 = testname + "-1 ";
const std::string testname2 = testname + "-2 ";
std::string documentPath, documentURL;
getDocumentPathAndURL(filename, documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname1);
sendTextFrame(socket1, "setclientpart part=2", testname1);
assertResponseString(socket1, "setpart:", testname1);
sendTextFrame(socket1, "mouse type=buttondown x=1500 y=1500 count=1 buttons=1 modifier=0", testname1);
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname2);
sendTextFrame(socket2, "setclientpart part=5", testname2);
assertResponseString(socket2, "setpart:", testname2);
sendTextFrame(socket2, "mouse type=buttondown x=1500 y=1500 count=1 buttons=1 modifier=0", testname2);
// This should be short, as in odp the font is large and we leave the page otherwise.
static const std::string text = "Some test";
for (char ch : text)
{
sendChar(socket1, ch, skNone, testname);
sendChar(socket2, ch, skNone, testname);
const auto response1 = assertResponseString(socket1, "invalidatetiles:", testname1);
int value1;
LOOLProtocol::getTokenIntegerFromMessage(response1, "part", value1);
LOK_ASSERT_EQUAL(2, value1);
const auto response2 = assertResponseString(socket2, "invalidatetiles:", testname2);
int value2;
LOOLProtocol::getTokenIntegerFromMessage(response2, "part", value2);
LOK_ASSERT_EQUAL(5, value2);
}
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::checkTiles(std::shared_ptr<http::WebSocketSession>& socket,
const std::string& docType, const std::string& testname)
{
const std::string current = "current=";
const std::string height = "height=";
const std::string parts = "parts=";
const std::string type = "type=";
const std::string width = "width=";
int currentPart = -1;
int totalParts = 0;
int docHeight = 0;
int docWidth = 0;
// check total slides 10
sendTextFrame(socket, "status", testname);
const auto response = assertResponseString(socket, "status:", testname);
{
std::string line;
std::istringstream istr(response.substr(8));
std::getline(istr, line);
StringVector tokens(Util::tokenize(line, ' '));
#if defined CPPUNIT_ASSERT_GREATEREQUAL
if (docType == "presentation")
CPPUNIT_ASSERT_GREATEREQUAL(static_cast<size_t>(7),
tokens.size()); // We have an extra field.
else
CPPUNIT_ASSERT_GREATEREQUAL(static_cast<size_t>(6), tokens.size());
#else
if (docType == "presentation")
LOK_ASSERT_EQUAL(static_cast<size_t>(7), tokens.size()); // We have an extra field.
else
LOK_ASSERT_EQUAL(static_cast<size_t>(6), tokens.size());
#endif
// Expected format is something like 'type= parts= current= width= height='.
const std::string text = tokens[0].substr(type.size());
totalParts = std::stoi(tokens[1].substr(parts.size()));
currentPart = std::stoi(tokens[2].substr(current.size()));
docWidth = std::stoi(tokens[3].substr(width.size()));
docHeight = std::stoi(tokens[4].substr(height.size()));
LOK_ASSERT_EQUAL(docType, text);
LOK_ASSERT_EQUAL(10, totalParts);
LOK_ASSERT(currentPart > -1);
LOK_ASSERT(docWidth > 0);
LOK_ASSERT(docHeight > 0);
}
if (docType == "presentation")
{
// request tiles
TST_LOG("Requesting Impress tiles.");
requestTiles(socket, docType, currentPart, docWidth, docHeight, testname);
}
// random setclientpart
std::srand(std::time(nullptr));
std::vector<int> vParts = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 };
std::random_shuffle(vParts.begin(), vParts.end());
int requests = 0;
for (int it : vParts)
{
if (currentPart != it)
{
// change part
const std::string text = Poco::format("setclientpart part=%d", it);
sendTextFrame(socket, text, testname);
// Wait for the change to take effect otherwise we get invalidatetile
// which removes our next tile request subscription (expecting us to
// issue a new tile request as a response, which a real client would do).
assertResponseString(socket, "setpart:", testname);
requestTiles(socket, docType, it, docWidth, docHeight, testname);
if (++requests >= 3)
{
// No need to test all parts.
TST_LOG("Breaking checkTiles for " << testname);
break;
}
}
currentPart = it;
}
}
void TileCacheTests::requestTiles(std::shared_ptr<http::WebSocketSession>& socket,
const std::string&, const int part, const int docWidth,
const int docHeight, const std::string& testname)
{
// twips
const int tileSize = 3840;
// pixel
const int pixTileSize = 256;
int rows;
int cols;
int tileX;
int tileY;
int tileWidth;
int tileHeight;
std::string text;
std::string tile;
rows = docHeight / tileSize;
cols = docWidth / tileSize;
TST_LOG("requestTiles for " << testname << " will request " << rows << " rows and " << cols
<< " cols.");
// Note: this code tests tile requests in the wrong way.
// This code does NOT match what was the idea how the LOOL protocol should/could be used. The
// intent was never that the protocol would need to be, or should be, used in a strict
// request/reply fashion. If a client needs n tiles, it should just send the requests, one after
// another. There is no need to do n roundtrips. A client should all the time be reading
// incoming messages, and handle incoming tiles as appropriate. There should be no expectation
// that tiles arrive at the client in the same order that they were requested.
// But, whatever.
for (int itRow = 0; itRow < rows; ++itRow)
{
for (int itCol = 0; itCol < cols; ++itCol)
{
tileWidth = tileSize;
tileHeight = tileSize;
tileX = tileSize * itCol;
tileY = tileSize * itRow;
text
= Poco::format("tile nviewid=0 part=%d width=%d height=%d tileposx=%d tileposy=%d "
"tilewidth=%d tileheight=%d",
part, pixTileSize, pixTileSize, tileX, tileY, tileWidth, tileHeight);
sendTextFrame(socket, text, testname);
tile = assertResponseString(socket, "tile:", testname);
// expected tile: part= width= height= tileposx= tileposy= tilewidth= tileheight=
StringVector tokens(Util::tokenize(tile, ' '));
LOK_ASSERT_EQUAL(std::string("tile:"), tokens[0]);
LOK_ASSERT_EQUAL(0, std::stoi(tokens[1].substr(std::string("nviewid=").size())));
LOK_ASSERT_EQUAL(part, std::stoi(tokens[2].substr(std::string("part=").size())));
LOK_ASSERT_EQUAL(pixTileSize,
std::stoi(tokens[3].substr(std::string("width=").size())));
LOK_ASSERT_EQUAL(pixTileSize,
std::stoi(tokens[4].substr(std::string("height=").size())));
LOK_ASSERT_EQUAL(tileX, std::stoi(tokens[5].substr(std::string("tileposx=").size())));
LOK_ASSERT_EQUAL(tileY, std::stoi(tokens[6].substr(std::string("tileposy=").size())));
LOK_ASSERT_EQUAL(tileWidth,
std::stoi(tokens[7].substr(std::string("tileWidth=").size())));
LOK_ASSERT_EQUAL(tileHeight,
std::stoi(tokens[8].substr(std::string("tileHeight=").size())));
}
}
TST_LOG("requestTiles for " << testname << " finished.");
}
void TileCacheTests::checkTiles(std::shared_ptr<LOOLWebSocket>& socket, const std::string& docType,
const std::string& testname)
{
const std::string current = "current=";
const std::string height = "height=";
const std::string parts = "parts=";
const std::string type = "type=";
const std::string width = "width=";
int currentPart = -1;
int totalParts = 0;
int docHeight = 0;
int docWidth = 0;
// check total slides 10
sendTextFrame(socket, "status", testname);
const auto response = assertResponseString(socket, "status:", testname);
{
std::string line;
std::istringstream istr(response.substr(8));
std::getline(istr, line);
StringVector tokens(Util::tokenize(line, ' '));
#if defined CPPUNIT_ASSERT_GREATEREQUAL
if (docType == "presentation")
CPPUNIT_ASSERT_GREATEREQUAL(static_cast<size_t>(7), tokens.size()); // We have an extra field.
else
CPPUNIT_ASSERT_GREATEREQUAL(static_cast<size_t>(6), tokens.size());
#else
if (docType == "presentation")
LOK_ASSERT_EQUAL(static_cast<size_t>(7), tokens.size()); // We have an extra field.
else
LOK_ASSERT_EQUAL(static_cast<size_t>(6), tokens.size());
#endif
// Expected format is something like 'type= parts= current= width= height='.
const std::string text = tokens[0].substr(type.size());
totalParts = std::stoi(tokens[1].substr(parts.size()));
currentPart = std::stoi(tokens[2].substr(current.size()));
docWidth = std::stoi(tokens[3].substr(width.size()));
docHeight = std::stoi(tokens[4].substr(height.size()));
LOK_ASSERT_EQUAL(docType, text);
LOK_ASSERT_EQUAL(10, totalParts);
LOK_ASSERT(currentPart > -1);
LOK_ASSERT(docWidth > 0);
LOK_ASSERT(docHeight > 0);
}
if (docType == "presentation")
{
// request tiles
TST_LOG("Requesting Impress tiles.");
requestTiles(socket, docType, currentPart, docWidth, docHeight, testname);
}
// random setclientpart
std::srand(std::time(nullptr));
std::vector<int> vParts = { 0, 1, 2, 3, 4, 5, 6, 7, 8, 9 };
std::random_shuffle(vParts.begin(), vParts.end());
int requests = 0;
for (int it : vParts)
{
if (currentPart != it)
{
// change part
const std::string text = Poco::format("setclientpart part=%d", it);
sendTextFrame(socket, text, testname);
// Wait for the change to take effect otherwise we get invalidatetile
// which removes our next tile request subscription (expecting us to
// issue a new tile request as a response, which a real client would do).
assertResponseString(socket, "setpart:", testname);
requestTiles(socket, docType, it, docWidth, docHeight, testname);
if (++requests >= 3)
{
// No need to test all parts.
break;
}
}
currentPart = it;
}
}
void TileCacheTests::requestTiles(std::shared_ptr<LOOLWebSocket>& socket,
const std::string& , const int part, const int docWidth,
const int docHeight, const std::string& testname)
{
// twips
const int tileSize = 3840;
// pixel
const int pixTileSize = 256;
int rows;
int cols;
int tileX;
int tileY;
int tileWidth;
int tileHeight;
std::string text;
std::string tile;
rows = docHeight / tileSize;
cols = docWidth / tileSize;
// Note: this code tests tile requests in the wrong way.
// This code does NOT match what was the idea how the LOOL protocol should/could be used. The
// intent was never that the protocol would need to be, or should be, used in a strict
// request/reply fashion. If a client needs n tiles, it should just send the requests, one after
// another. There is no need to do n roundtrips. A client should all the time be reading
// incoming messages, and handle incoming tiles as appropriate. There should be no expectation
// that tiles arrive at the client in the same order that they were requested.
// But, whatever.
for (int itRow = 0; itRow < rows; ++itRow)
{
for (int itCol = 0; itCol < cols; ++itCol)
{
tileWidth = tileSize;
tileHeight = tileSize;
tileX = tileSize * itCol;
tileY = tileSize * itRow;
text = Poco::format("tile nviewid=0 part=%d width=%d height=%d tileposx=%d tileposy=%d tilewidth=%d tileheight=%d",
part, pixTileSize, pixTileSize, tileX, tileY, tileWidth, tileHeight);
sendTextFrame(socket, text, testname);
tile = assertResponseString(socket, "tile:", testname);
// expected tile: part= width= height= tileposx= tileposy= tilewidth= tileheight=
StringVector tokens(Util::tokenize(tile, ' '));
LOK_ASSERT_EQUAL(std::string("tile:"), tokens[0]);
LOK_ASSERT_EQUAL(0, std::stoi(tokens[1].substr(std::string("nviewid=").size())));
LOK_ASSERT_EQUAL(part, std::stoi(tokens[2].substr(std::string("part=").size())));
LOK_ASSERT_EQUAL(pixTileSize, std::stoi(tokens[3].substr(std::string("width=").size())));
LOK_ASSERT_EQUAL(pixTileSize, std::stoi(tokens[4].substr(std::string("height=").size())));
LOK_ASSERT_EQUAL(tileX, std::stoi(tokens[5].substr(std::string("tileposx=").size())));
LOK_ASSERT_EQUAL(tileY, std::stoi(tokens[6].substr(std::string("tileposy=").size())));
LOK_ASSERT_EQUAL(tileWidth, std::stoi(tokens[7].substr(std::string("tileWidth=").size())));
LOK_ASSERT_EQUAL(tileHeight, std::stoi(tokens[8].substr(std::string("tileHeight=").size())));
}
}
}
void TileCacheTests::testTileRequestByInvalidation()
{
const char* testname = "tileRequestByInvalidation ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// 1. use case: invalidation without having a valid visible area in wsd
// Type one character to trigger invalidation
sendChar(socket, 'x', skNone, testname);
// First wsd forwards the invalidation
assertResponseString(socket, "invalidatetiles:", testname);
// Since we did not set client visible area wsd won't send tile
std::vector<char> tile = getResponseMessage(socket, "tile:", testname);
LOK_ASSERT_MESSAGE("Not expected tile message arrived!", tile.empty());
// 2. use case: invalidation of one tile inside the client visible area
// Now set the client visible area
sendTextFrame(socket, "clientvisiblearea x=-4005 y=0 width=50490 height=72300");
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3840 tiletwipheight=3840");
// Type one character to trigger invalidation
sendChar(socket, 'x', skNone, testname);
// First wsd forwards the invalidation
assertResponseString(socket, "invalidatetiles:", testname);
// Then sends the new tile which was invalidated inside the visible area
assertResponseString(socket, "tile:", testname);
socket->asyncShutdown();
socket->waitForDisconnection(std::chrono::seconds(5));
}
void TileCacheTests::testTileRequestByZoom()
{
// By zoom the client requests all the tile of the visible area
// Server should push all these tiles to the network, so tiles-on-fly should be bigger than this count
const char* testname = "testTileRequestByZoom ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Set the client visible area
sendTextFrame(socket, "clientvisiblearea x=-2662 y=0 width=16000 height=9875");
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3200 tiletwipheight=3200");
// Request all tile of the visible area (it happens by zoom)
sendTextFrame(socket, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3200,6400,9600,12800,0,3200,6400,9600,12800,0,3200,6400,9600,12800,0,3200,6400,9600,12800 tileposy=0,0,0,0,0,3200,3200,3200,3200,3200,6400,6400,6400,6400,6400,9600,9600,9600,9600,9600 tilewidth=3200 tileheight=3200");
// Check that we get all the tiles without we send back the tileprocessed message
for (int i = 0; i < 20; ++i)
{
std::vector<char> tile = getResponseMessage(socket, "tile:", testname);
LOK_ASSERT_MESSAGE("Did not get tile as expected!", !tile.empty());
}
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileWireIDHandling()
{
const char* testname = "testTileWireIDHandling ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Set the client visible area
sendTextFrame(socket, "clientvisiblearea x=-4005 y=0 width=50490 height=72300");
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3840 tiletwipheight=3840");
// Type one character to trigger invalidation
sendChar(socket, 'x', skNone, testname);
// First wsd forwards the invalidation
assertResponseString(socket, "invalidatetiles:", testname);
// For the first input wsd will send all invalidated tiles
LOK_ASSERT_MESSAGE("Expected at least two tiles.",
countMessages(socket, "tile:", testname, std::chrono::milliseconds(500))
> 1);
// Let WSD know we got these so it wouldn't stop sending us modified tiles automatically.
sendTextFrame(socket, "tileprocessed tile=0:0:0:3840:3840:0", testname);
sendTextFrame(socket, "tileprocessed tile=0:3840:0:3840:3840:0", testname);
sendTextFrame(socket, "tileprocessed tile=0:7680:0:3840:3840:0", testname);
// Type another character
sendChar(socket, 'y', skNone, testname);
assertResponseString(socket, "invalidatetiles:", testname);
// For the second input wsd will send one tile, since some of them are identical.
const int arrivedTiles
= countMessages(socket, "tile:", testname, std::chrono::milliseconds(500));
if (arrivedTiles == 1)
return;
// Or, at most 2. The reason is that sometimes we get line antialiasing differences that
// are sub-pixel different, and that results in a different hash.
LOK_ASSERT_EQUAL(2, arrivedTiles);
// The third time, however, we shouldn't see anything but the tile we change.
sendChar(socket, 'z', skNone, testname);
assertResponseString(socket, "invalidatetiles:", testname);
LOK_ASSERT_MESSAGE("Expected exactly one tile.",
countMessages(socket, "tile:", testname, std::chrono::milliseconds(500))
== 1);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileProcessed()
{
// Test whether tileprocessed message removes the tiles from the internal tiles-on-fly list
const char* testname = "testTileProcessed ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Set the client visible area
sendTextFrame(socket, "clientvisiblearea x=-2662 y=0 width=10000 height=9000");
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3200 tiletwipheight=3200");
// Request a lots of tiles (more than wsd can send once)
sendTextFrame(socket, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3200,6400,9600,12800,0,3200,6400,9600,12800,0,3200,6400,9600,12800,0,3200,6400,9600,12800,0,3200,6400,9600,12800 tileposy=0,0,0,0,0,3200,3200,3200,3200,3200,6400,6400,6400,6400,6400,9600,9600,9600,9600,9600,12800,12800,12800,12800,12800 tilewidth=3200 tileheight=3200");
std::vector<std::string> tileIDs;
int arrivedTile = 0;
bool gotTile = false;
do
{
std::string tile = getResponseString(socket, "tile:", testname);
gotTile = !tile.empty();
if(gotTile)
{
++arrivedTile;
// Store tileID, so we can send it back
StringVector tokens(Util::tokenize(tile, ' '));
std::string tileID = tokens[2].substr(std::string("part=").size()) + ':' +
tokens[5].substr(std::string("tileposx=").size()) + ':' +
tokens[6].substr(std::string("tileposy=").size()) + ':' +
tokens[7].substr(std::string("tileWidth=").size()) + ':' +
tokens[8].substr(std::string("tileHeight=").size()) + ':' +
tokens[1].substr(std::string("nviewid=").size());
tileIDs.push_back(tileID);
}
} while(gotTile);
LOK_ASSERT_MESSAGE("We expect two tiles at least!", arrivedTile > 1);
LOK_ASSERT_MESSAGE("We expect that wsd can't send all the tiles!", arrivedTile < 25);
for(std::string& tileID : tileIDs)
{
sendTextFrame(socket, "tileprocessed tile=" + tileID, testname);
}
// Now we can get the remaining tiles
int arrivedTile2 = 0;
do
{
std::vector<char> tile = getResponseMessage(socket, "tile:", testname);
gotTile = !tile.empty();
if(gotTile)
++arrivedTile2;
if (arrivedTile2 > 1)
break; // We got what we expected.
} while(gotTile);
LOK_ASSERT_MESSAGE("We expect one tile at least!", arrivedTile2 > 1);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileInvalidatedOutside()
{
// Test whether wsd sends us the tiles which are hanging out the visible area
const char* testname = "testTileInvalidatedOutside ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Type one character to trigger invalidation and get the invalidation rectangle
sendChar(socket, 'x', skNone, testname);
// First wsd forwards the invalidation
std::string sInvalidate = assertResponseString(socket, "invalidatetiles:", testname);
StringVector tokens(Util::tokenize(sInvalidate, ' '));
int y = std::stoi(tokens[3].substr(std::string("y=").size()));
int height = std::stoi(tokens[5].substr(std::string("height=").size()));
// Set client visible area to make it not having intersection with the invalidate rectangle, but having shared tiles
std::ostringstream oss;
oss << "clientvisiblearea x=0 y=" << (y + height + 100) << " width=50490 height=72300";
sendTextFrame(socket, oss.str());
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3840 tiletwipheight=3840");
// Type one character to trigger invalidation
sendChar(socket, 'x', skNone, testname);
// First wsd forwards the invalidation
assertResponseString(socket, "invalidatetiles:", testname);
// Since the invalidation rectangle is outside the visible area
// wsd does not send a new tile even if some of the invalidated tiles
// are partly visible.
std::vector<char> tile = getResponseMessage(socket, "tile:", testname);
LOK_ASSERT_MESSAGE("Not expected tile message arrived!", tile.empty());
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testTileBeingRenderedHandling()
{
// The issue here was that we requested the tile of the same tile twice
// and so sometimes we got the same tile message twice from wsd.
const char* testname = "testTileBeingRenderedHandling ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Set the client visible area
sendTextFrame(socket, "clientvisiblearea x=-2662 y=0 width=16000 height=9875");
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3200 tiletwipheight=3200");
// Type one character to trigger invalidation
sendChar(socket, 'x', skNone, testname);
// First wsd forwards the invalidation
assertResponseString(socket, "invalidatetiles:", testname);
// For the first input wsd will send all invalidated tiles
LOK_ASSERT_MESSAGE("Expected at least two tiles.",
countMessages(socket, "tile:", testname, std::chrono::milliseconds(500))
> 1);
// For the later inputs wsd will send one tile, since other ones are identical
for(int i = 0; i < 5; ++i)
{
sendTextFrame(socket, "tileprocessed tile=0:0:0:3200:3200:0", testname);
// Type another character
sendChar(socket, 'y', skNone, testname);
assertResponseString(socket, "invalidatetiles:", testname);
const int arrivedTiles
= countMessages(socket, "tile:", testname, std::chrono::milliseconds(500));
if (arrivedTiles != 1)
{
// Or, at most 2. The reason is that sometimes we get line antialiasing differences that
// are sub-pixel different, and that results in a different hash.
LOK_ASSERT_EQUAL(2, arrivedTiles);
sendTextFrame(socket, "tileprocessed tile=0:0:0:3200:3200:0", testname);
// The third time, however, we shouldn't see anything but the tile we change.
sendChar(socket, 'z', skNone, testname);
assertResponseString(socket, "invalidatetiles:", testname);
LOK_ASSERT_MESSAGE(
"Expected exactly one tile.",
countMessages(socket, "tile:", testname, std::chrono::milliseconds(500)) == 1);
}
}
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testWireIDFilteringOnWSDSide()
{
const char* testname = "testWireIDFilteringOnWSDSide ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket1
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Set the client visible area
sendTextFrame(socket1, "clientvisiblearea x=-4005 y=0 width=50490 height=72300");
sendTextFrame(socket1, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3840 tiletwipheight=3840");
std::shared_ptr<http::WebSocketSession> socket2
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname, true);
// Set the client visible area
sendTextFrame(socket1, "clientvisiblearea x=-4005 y=0 width=50490 height=72300");
sendTextFrame(socket1, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3840 tiletwipheight=3840");
//1. First make the first client to trigger the kit to filter out tiles based on identical wireIDs
// Type one character to trigger invalidation
sendChar(socket1, 'x', skNone, testname);
// First wsd forwards the invalidation
assertResponseString(socket1, "invalidatetiles:", testname);
// For the first input wsd will send all invalidated tiles
LOK_ASSERT_MESSAGE("Expected at least two tiles.",
countMessages(socket1, "tile:", testname, std::chrono::milliseconds(500))
> 1);
// Let WSD know we got these so it wouldn't stop sending us modified tiles automatically.
sendTextFrame(socket1, "tileprocessed tile=0:0:0:3840:3840:0", testname);
sendTextFrame(socket1, "tileprocessed tile=0:3840:0:3840:3840:0", testname);
sendTextFrame(socket1, "tileprocessed tile=0:7680:0:3840:3840:0", testname);
// Type another character
sendChar(socket1, 'y', skNone, testname);
assertResponseString(socket1, "invalidatetiles:", testname);
// For the second input wsd will send one tile, since some of them are identical.
const int arrivedTiles
= countMessages(socket1, "tile:", testname, std::chrono::milliseconds(500));
if (arrivedTiles == 1)
return;
// Or, at most 2. The reason is that sometimes we get line antialiasing differences that
// are sub-pixel different, and that results in a different hash.
LOK_ASSERT_MESSAGE("Expected at most 3 tiles.", arrivedTiles <= 3);
// The third time, however, we shouldn't see anything but the tile we change.
sendChar(socket1, 'z', skNone, testname);
assertResponseString(socket1, "invalidatetiles:", testname);
LOK_ASSERT_MESSAGE("Expected exactly one tile.",
countMessages(socket1, "tile:", testname, std::chrono::milliseconds(500))
== 1);
//2. Now request the same tiles by the other client (e.g. scroll to the same view)
sendTextFrame(socket2, "tilecombine nviewid=0 part=0 width=256 height=256 tileposx=0,3840,7680 tileposy=0,0,0 tilewidth=3840 tileheight=3840");
// We expect three tiles sent to the second client
LOK_ASSERT_EQUAL(3, countMessages(socket2, "tile:", testname, std::chrono::milliseconds(500)));
// wsd should not send tiles messages for the first client
const std::vector<char> tile
= getResponseMessage(socket1, "tile:", testname, std::chrono::milliseconds(1000));
LOK_ASSERT_MESSAGE("Not expected tile message arrived!", tile.empty());
socket1->asyncShutdown();
socket2->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 1",
socket1->waitForDisconnection(std::chrono::seconds(5)));
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket 2",
socket2->waitForDisconnection(std::chrono::seconds(5)));
}
void TileCacheTests::testLimitTileVersionsOnFly()
{
// We have an upper limit (2) for the versions of the same tile wsd send out
// without getting the tileprocessed message for the first tile message.
const char* testname = "testLimitTileVersionsOnFly ";
std::string documentPath, documentURL;
getDocumentPathAndURL("empty.odt", documentPath, documentURL, testname);
std::shared_ptr<http::WebSocketSession> socket
= loadDocAndGetSession(_socketPoll, _uri, documentURL, testname);
// Set the client visible area
sendTextFrame(socket, "clientvisiblearea x=-2662 y=0 width=16000 height=9875");
sendTextFrame(socket, "clientzoom tilepixelwidth=256 tilepixelheight=256 tiletwipwidth=3200 tiletwipheight=3200");
// Type one character to trigger sending tiles
sendChar(socket, 'x', skNone, testname);
// Handle all tiles send by wsd
bool getTileResp = false;
do
{
const std::string tile
= getResponseString(socket, "tile:", testname, std::chrono::milliseconds(1000));
getTileResp = !tile.empty();
} while(getTileResp);
// Type another character to trigger sending tiles
sendChar(socket, 'x', skNone, testname);
// Handle all tiles sent by wsd
do
{
const std::string tile
= getResponseString(socket, "tile:", testname, std::chrono::milliseconds(1000));
getTileResp = !tile.empty();
} while(getTileResp);
// For the third invalidation wsd does not send the new tile since
// two versions of the same tile were already sent.
sendChar(socket, 'x', skNone, testname);
const std::vector<char> tile1
= getResponseMessage(socket, "tile:", testname, std::chrono::milliseconds(1000));
LOK_ASSERT_MESSAGE("Not expected tile message arrived!", tile1.empty());
// When the next tileprocessed message arrive with correct tileID
// wsd sends the delayed tile
sendTextFrame(socket, "tileprocessed tile=0:0:0:3200:3200:0", testname);
int arrivedTiles = 0;
bool gotTile = false;
do
{
const std::vector<char> tile
= getResponseMessage(socket, "tile:", testname, std::chrono::milliseconds(1000));
gotTile = !tile.empty();
if(gotTile)
++arrivedTiles;
} while(gotTile);
LOK_ASSERT_EQUAL(1, arrivedTiles);
socket->asyncShutdown();
LOK_ASSERT_MESSAGE("Expected successful disconnection of the WebSocket",
socket->waitForDisconnection(std::chrono::seconds(5)));
}
CPPUNIT_TEST_SUITE_REGISTRATION(TileCacheTests);
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */
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