libreoffice-online/kit/ChildSession.cpp
Tor Lillqvist 5270284701 Further re-work of document saving in the iOS app
Now, finally, I think it works as it should, knock on wood. After an
auto-save (or explicit save by tapping the button), the edited
document does show up with its auto-saved contents if you open it from
iCloud Drive or Nextcloud while it is still open in the iOS app.

What I was missing was that the document hadn't actually been saved by
the core (to the temporary copy) until we get the
LOK_CALLBACK_UNO_COMMAND_RESULT for the .uno:Save. We must call the
-[UIDocumentsaveToURL:forSaveOperation:completionHandler:] only upon
receiving that callback.

Change-Id: I10486f3bc587c871ee2644a0c097493f33baf420
Reviewed-on: https://gerrit.libreoffice.org/c/online/+/91880
Tested-by: Jenkins CollaboraOffice <jenkinscollaboraoffice@gmail.com>
Reviewed-by: Tor Lillqvist <tml@collabora.com>
2020-04-08 12:19:38 +02:00

2625 lines
89 KiB
C++

/* -*- Mode: C++; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4; fill-column: 100 -*- */
/*
* This file is part of the LibreOffice project.
*
* 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 "ChildSession.hpp"
#include <fstream>
#include <sstream>
#define LOK_USE_UNSTABLE_API
#include <LibreOfficeKit/LibreOfficeKitEnums.h>
#include <Poco/JSON/Object.h>
#include <Poco/JSON/Parser.h>
#include <Poco/StreamCopier.h>
#include <Poco/URI.h>
#include <Poco/BinaryReader.h>
#include <Poco/Base64Decoder.h>
#include <Poco/Process.h>
#if !MOBILEAPP
#include <Poco/Net/HTTPResponse.h>
#include <Poco/Net/HTTPSClientSession.h>
#include <Poco/Net/SSLManager.h>
#include <Poco/Net/KeyConsoleHandler.h>
#include <Poco/Net/AcceptCertificateHandler.h>
#endif
#ifdef IOS
#import "DocumentViewController.h"
#endif
#include <common/FileUtil.hpp>
#include <common/JsonUtil.hpp>
#include <common/Authorization.hpp>
#include "KitHelper.hpp"
#include <Log.hpp>
#include <Png.hpp>
#include <Util.hpp>
#include <Unit.hpp>
#include <Clipboard.hpp>
#include <string>
using Poco::JSON::Object;
using Poco::JSON::Parser;
using Poco::URI;
using namespace LOOLProtocol;
bool ChildSession::NoCapsForKit = false;
namespace {
std::vector<unsigned char> decodeBase64(const std::string & inputBase64)
{
std::istringstream stream(inputBase64);
Poco::Base64Decoder base64Decoder(stream);
std::istreambuf_iterator<char> eos;
return std::vector<unsigned char>(std::istreambuf_iterator<char>(base64Decoder), eos);
}
}
ChildSession::ChildSession(
const std::shared_ptr<ProtocolHandlerInterface> &protocol,
const std::string& id,
const std::string& jailId,
DocumentManagerInterface& docManager) :
Session(protocol, "ToMaster-" + id, id, false),
_jailId(jailId),
_docManager(&docManager),
_viewId(-1),
_isDocLoaded(false),
_copyToClipboard(false)
{
LOG_INF("ChildSession ctor [" << getName() << "].");
}
ChildSession::~ChildSession()
{
LOG_INF("~ChildSession dtor [" << getName() << "].");
disconnect();
}
void ChildSession::disconnect()
{
if (!isDisconnected())
{
if (_viewId >= 0)
{
if (_docManager)
{
_docManager->onUnload(*this);
}
}
else
{
LOG_WRN("Skipping unload on incomplete view.");
}
// This shuts down the shared socket, which is not what we want.
// Session::disconnect();
}
}
bool ChildSession::_handleInput(const char *buffer, int length)
{
LOG_TRC(getName() << ": handling [" << getAbbreviatedMessage(buffer, length) << "].");
const std::string firstLine = getFirstLine(buffer, length);
const StringVector tokens = LOOLProtocol::tokenize(firstLine.data(), firstLine.size());
if (LOOLProtocol::tokenIndicatesUserInteraction(tokens[0]))
{
// Keep track of timestamps of incoming client messages that indicate user activity.
updateLastActivityTime();
}
if (tokens.size() > 0 && tokens.equals(0, "useractive") && getLOKitDocument() != nullptr)
{
LOG_DBG("Handling message after inactivity of " << getInactivityMS() << "ms.");
setIsActive(true);
// Client is getting active again.
// Send invalidation and other sync-up messages.
getLOKitDocument()->setView(_viewId);
int curPart = 0;
if (getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_TEXT)
curPart = getLOKitDocument()->getPart();
// Notify all views about updated view info
_docManager->notifyViewInfo();
if (getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_TEXT)
{
sendTextFrame("curpart: part=" + std::to_string(curPart));
sendTextFrame("setpart: part=" + std::to_string(curPart));
}
// Invalidate if we have to
// TODO instead just a "_invalidate" flag, we should remember / grow
// the rectangle to invalidate; invalidating everything is sub-optimal
if (_stateRecorder.isInvalidate())
{
const std::string payload = "0, 0, 1000000000, 1000000000, " + std::to_string(curPart);
loKitCallback(LOK_CALLBACK_INVALIDATE_TILES, payload);
}
for (const auto& viewPair : _stateRecorder.getRecordedViewEvents())
{
for (const auto& eventPair : viewPair.second)
{
const RecordedEvent& event = eventPair.second;
LOG_TRC("Replaying missed view event: " << viewPair.first << ' '
<< lokCallbackTypeToString(event.getType())
<< ": " << event.getPayload());
loKitCallback(event.getType(), event.getPayload());
}
}
for (const auto& eventPair : _stateRecorder.getRecordedEvents())
{
const RecordedEvent& event = eventPair.second;
LOG_TRC("Replaying missed event: " << lokCallbackTypeToString(event.getType()) << ": "
<< event.getPayload());
loKitCallback(event.getType(), event.getPayload());
}
for (const auto& pair : _stateRecorder.getRecordedStates())
{
LOG_TRC("Replaying missed state-change: " << pair.second);
loKitCallback(LOK_CALLBACK_STATE_CHANGED, pair.second);
}
for (const auto& event : _stateRecorder.getRecordedEventsVector())
{
LOG_TRC("Replaying missed event (part of sequence): " <<
lokCallbackTypeToString(event.getType()) << ": " << event.getPayload());
loKitCallback(event.getType(), event.getPayload());
}
_stateRecorder.clear();
LOG_TRC("Finished replaying messages.");
}
if (tokens.equals(0, "dummymsg"))
{
// Just to update the activity of a view-only client.
return true;
}
else if (tokens.equals(0, "commandvalues"))
{
return getCommandValues(buffer, length, tokens);
}
else if (tokens.equals(0, "load"))
{
if (_isDocLoaded)
{
sendTextFrameAndLogError("error: cmd=load kind=docalreadyloaded");
return false;
}
_isDocLoaded = loadDocument(buffer, length, tokens);
if (!_isDocLoaded)
{
sendTextFrameAndLogError("error: cmd=load kind=faileddocloading");
}
LOG_TRC("isDocLoaded state after loadDocument: " << _isDocLoaded << '.');
return _isDocLoaded;
}
else if (!_isDocLoaded)
{
sendTextFrameAndLogError("error: cmd=" + tokens[0] + " kind=nodocloaded");
return false;
}
else if (tokens.equals(0, "renderfont"))
{
sendFontRendering(buffer, length, tokens);
}
else if (tokens.equals(0, "setclientpart"))
{
return setClientPart(buffer, length, tokens);
}
else if (tokens.equals(0, "selectclientpart"))
{
return selectClientPart(buffer, length, tokens);
}
else if (tokens.equals(0, "moveselectedclientparts"))
{
return moveSelectedClientParts(buffer, length, tokens);
}
else if (tokens.equals(0, "setpage"))
{
return setPage(buffer, length, tokens);
}
else if (tokens.equals(0, "status"))
{
return getStatus(buffer, length);
}
else if (tokens.equals(0, "paintwindow"))
{
return renderWindow(buffer, length, tokens);
}
else if (tokens.equals(0, "resizewindow"))
{
return resizeWindow(buffer, length, tokens);
}
else if (tokens.equals(0, "tile") || tokens.equals(0, "tilecombine"))
{
assert(false && "Tile traffic should go through the DocumentBroker-LoKit WS.");
}
else if (tokens.equals(0, "requestloksession") ||
tokens.equals(0, "canceltiles"))
{
// Just ignore these.
// FIXME: We probably should do something for "canceltiles" at least?
}
else
{
// All other commands are such that they always require a LibreOfficeKitDocument session,
// i.e. need to be handled in a child process.
assert(tokens.equals(0, "clientzoom") ||
tokens.equals(0, "clientvisiblearea") ||
tokens.equals(0, "outlinestate") ||
tokens.equals(0, "downloadas") ||
tokens.equals(0, "getchildid") ||
tokens.equals(0, "gettextselection") ||
tokens.equals(0, "getclipboard") ||
tokens.equals(0, "setclipboard") ||
tokens.equals(0, "paste") ||
tokens.equals(0, "insertfile") ||
tokens.equals(0, "key") ||
tokens.equals(0, "textinput") ||
tokens.equals(0, "windowkey") ||
tokens.equals(0, "mouse") ||
tokens.equals(0, "windowmouse") ||
tokens.equals(0, "windowgesture") ||
tokens.equals(0, "uno") ||
tokens.equals(0, "selecttext") ||
tokens.equals(0, "windowselecttext") ||
tokens.equals(0, "selectgraphic") ||
tokens.equals(0, "resetselection") ||
tokens.equals(0, "saveas") ||
tokens.equals(0, "useractive") ||
tokens.equals(0, "userinactive") ||
tokens.equals(0, "windowcommand") ||
tokens.equals(0, "asksignaturestatus") ||
tokens.equals(0, "signdocument") ||
tokens.equals(0, "uploadsigneddocument") ||
tokens.equals(0, "exportsignanduploaddocument") ||
tokens.equals(0, "rendershapeselection") ||
tokens.equals(0, "removetextcontext") ||
tokens.equals(0, "dialogevent") ||
tokens.equals(0, "completefunction"));
if (tokens.equals(0, "clientzoom"))
{
return clientZoom(buffer, length, tokens);
}
else if (tokens.equals(0, "clientvisiblearea"))
{
return clientVisibleArea(buffer, length, tokens);
}
else if (tokens.equals(0, "outlinestate"))
{
return outlineState(buffer, length, tokens);
}
else if (tokens.equals(0, "downloadas"))
{
return downloadAs(buffer, length, tokens);
}
else if (tokens.equals(0, "getchildid"))
{
return getChildId();
}
else if (tokens.equals(0, "gettextselection")) // deprecated.
{
return getTextSelection(buffer, length, tokens);
}
else if (tokens.equals(0, "getclipboard"))
{
return getClipboard(buffer, length, tokens);
}
else if (tokens.equals(0, "setclipboard"))
{
return setClipboard(buffer, length, tokens);
}
else if (tokens.equals(0, "paste"))
{
return paste(buffer, length, tokens);
}
else if (tokens.equals(0, "insertfile"))
{
return insertFile(buffer, length, tokens);
}
else if (tokens.equals(0, "key"))
{
return keyEvent(buffer, length, tokens, LokEventTargetEnum::Document);
}
else if (tokens.equals(0, "textinput"))
{
return extTextInputEvent(buffer, length, tokens);
}
else if (tokens.equals(0, "windowkey"))
{
return keyEvent(buffer, length, tokens, LokEventTargetEnum::Window);
}
else if (tokens.equals(0, "mouse"))
{
return mouseEvent(buffer, length, tokens, LokEventTargetEnum::Document);
}
else if (tokens.equals(0, "windowmouse"))
{
return mouseEvent(buffer, length, tokens, LokEventTargetEnum::Window);
}
else if (tokens.equals(0, "windowgesture"))
{
return gestureEvent(buffer, length, tokens);
}
else if (tokens.equals(0, "uno"))
{
// SpellCheckApplySuggestion might contain non separator spaces
if (tokens[1].find(".uno:SpellCheckApplySuggestion") != std::string::npos ||
tokens[1].find(".uno:LanguageStatus") != std::string::npos)
{
StringVector newTokens;
newTokens.push_back(tokens[0]);
newTokens.push_back(firstLine.substr(4)); // Copy the remaining part.
return unoCommand(buffer, length, newTokens);
}
return unoCommand(buffer, length, tokens);
}
else if (tokens.equals(0, "selecttext"))
{
return selectText(buffer, length, tokens, LokEventTargetEnum::Document);
}
else if (tokens.equals(0, "windowselecttext"))
{
return selectText(buffer, length, tokens, LokEventTargetEnum::Window);
}
else if (tokens.equals(0, "selectgraphic"))
{
return selectGraphic(buffer, length, tokens);
}
else if (tokens.equals(0, "resetselection"))
{
return resetSelection(buffer, length, tokens);
}
else if (tokens.equals(0, "saveas"))
{
return saveAs(buffer, length, tokens);
}
else if (tokens.equals(0, "useractive"))
{
setIsActive(true);
}
else if (tokens.equals(0, "userinactive"))
{
setIsActive(false);
}
else if (tokens.equals(0, "windowcommand"))
{
sendWindowCommand(buffer, length, tokens);
}
else if (tokens.equals(0, "signdocument"))
{
signDocumentContent(buffer, length, tokens);
}
else if (tokens.equals(0, "asksignaturestatus"))
{
askSignatureStatus(buffer, length, tokens);
}
#if !MOBILEAPP
else if (tokens.equals(0, "uploadsigneddocument"))
{
return uploadSignedDocument(buffer, length, tokens);
}
else if (tokens.equals(0, "exportsignanduploaddocument"))
{
return exportSignAndUploadDocument(buffer, length, tokens);
}
#endif
else if (tokens.equals(0, "rendershapeselection"))
{
return renderShapeSelection(buffer, length, tokens);
}
else if (tokens.equals(0, "removetextcontext"))
{
return removeTextContext(buffer, length, tokens);
}
else if (tokens.equals(0, "dialogevent"))
{
return dialogEvent(buffer, length, tokens);
}
else if (tokens.equals(0, "completefunction"))
{
return completeFunction(buffer, length, tokens);
}
else
{
assert(false && "Unknown command token.");
}
}
return true;
}
#if !MOBILEAPP
// add to common / tools
size_t getFileSize(const std::string& filename)
{
return std::ifstream(filename, std::ifstream::ate | std::ifstream::binary).tellg();
}
std::string getMimeFromFileType(const std::string & fileType)
{
if (fileType == "pdf")
return "application/pdf";
else if (fileType == "odt")
return "application/vnd.oasis.opendocument.text";
else if (fileType == "docx")
return "application/vnd.openxmlformats-officedocument.wordprocessingml.document";
return std::string();
}
bool ChildSession::uploadSignedDocument(const char* buffer, int length, const StringVector& /*tokens*/)
{
std::string filename;
std::string wopiUrl;
std::string token;
std::string filetype;
{ // parse JSON
const std::string firstLine = getFirstLine(buffer, length);
const char* data = buffer + firstLine.size() + 1;
const int size = length - firstLine.size() - 1;
std::string json(data, size);
Poco::JSON::Parser parser;
Poco::JSON::Object::Ptr root = parser.parse(json).extract<Poco::JSON::Object::Ptr>();
filename = JsonUtil::getJSONValue<std::string>(root, "filename");
wopiUrl = JsonUtil::getJSONValue<std::string>(root, "wopiUrl");
token = JsonUtil::getJSONValue<std::string>(root, "token");
filetype = JsonUtil::getJSONValue<std::string>(root, "type");
}
if (filetype.empty() || filename.empty() || wopiUrl.empty() || token.empty())
{
sendTextFrameAndLogError("error: cmd=uploadsigneddocument kind=syntax");
return false;
}
std::string mimetype = getMimeFromFileType(filetype);
if (mimetype.empty())
{
sendTextFrameAndLogError("error: cmd=uploadsigneddocument kind=syntax");
return false;
}
const std::string tmpDir = FileUtil::createRandomDir(JAILED_DOCUMENT_ROOT);
const Poco::Path filenameParam(filename);
const std::string url = JAILED_DOCUMENT_ROOT + tmpDir + "/" + filenameParam.getFileName();
getLOKitDocument()->saveAs(url.c_str(),
filetype.empty() ? nullptr : filetype.c_str(),
nullptr);
Authorization authorization(Authorization::Type::Token, token);
Poco::URI uriObject(wopiUrl + "/" + filename + "/contents");
authorization.authorizeURI(uriObject);
try
{
Poco::Net::initializeSSL();
Poco::Net::Context::Params sslClientParams;
sslClientParams.verificationMode = Poco::Net::Context::VERIFY_NONE;
Poco::SharedPtr<Poco::Net::PrivateKeyPassphraseHandler> consoleClientHandler = new Poco::Net::KeyConsoleHandler(false);
Poco::SharedPtr<Poco::Net::InvalidCertificateHandler> invalidClientCertHandler = new Poco::Net::AcceptCertificateHandler(false);
Poco::Net::Context::Ptr sslClientContext = new Poco::Net::Context(Poco::Net::Context::CLIENT_USE, sslClientParams);
Poco::Net::SSLManager::instance().initializeClient(consoleClientHandler, invalidClientCertHandler, sslClientContext);
std::unique_ptr<Poco::Net::HTTPClientSession> psession;
psession.reset(new Poco::Net::HTTPSClientSession(
uriObject.getHost(),
uriObject.getPort(),
Poco::Net::SSLManager::instance().defaultClientContext()));
Poco::Net::HTTPRequest request(Poco::Net::HTTPRequest::HTTP_POST, uriObject.getPathAndQuery(), Poco::Net::HTTPMessage::HTTP_1_1);
request.set("User-Agent", WOPI_AGENT_STRING);
authorization.authorizeRequest(request);
request.set("X-WOPI-Override", "PUT");
const size_t filesize = getFileSize(url);
request.setContentType(mimetype);
request.setContentLength(filesize);
std::ostream& httpOutputStream = psession->sendRequest(request);
std::ifstream inputFileStream(url);
Poco::StreamCopier::copyStream(inputFileStream, httpOutputStream);
Poco::Net::HTTPResponse response;
std::istream& responseStream = psession->receiveResponse(response);
std::ostringstream outputStringStream;
Poco::StreamCopier::copyStream(responseStream, outputStringStream);
std::string responseString = outputStringStream.str();
if (response.getStatus() != Poco::Net::HTTPResponse::HTTP_OK &&
response.getStatus() != Poco::Net::HTTPResponse::HTTP_CREATED)
{
LOG_ERR("Upload signed document HTTP Response Error: " << response.getStatus() << ' ' << response.getReason());
sendTextFrameAndLogError("error: cmd=uploadsigneddocument kind=httpresponse");
return false;
}
}
catch (const Poco::Exception& pocoException)
{
LOG_ERR("Upload signed document Exception: " + pocoException.displayText());
sendTextFrameAndLogError("error: cmd=uploadsigneddocument kind=failure");
return false;
}
return true;
}
#endif
bool ChildSession::loadDocument(const char * /*buffer*/, int /*length*/, const StringVector& tokens)
{
int part = -1;
if (tokens.size() < 2)
{
sendTextFrameAndLogError("error: cmd=load kind=syntax");
return false;
}
std::string timestamp, doctemplate;
parseDocOptions(tokens, part, timestamp, doctemplate);
std::string renderOpts;
if (!getDocOptions().empty())
{
Parser parser;
Poco::Dynamic::Var var = parser.parse(getDocOptions());
Object::Ptr object = var.extract<Object::Ptr>();
Poco::Dynamic::Var rendering = object->get("rendering");
if (!rendering.isEmpty())
renderOpts = rendering.toString();
}
assert(!getDocURL().empty());
assert(!getJailedFilePath().empty());
#if defined(ENABLE_DEBUG) && !MOBILEAPP
if (std::getenv("PAUSEFORDEBUGGER"))
{
std::cerr << getDocURL() << " paused waiting for a debugger to attach: " << Poco::Process::id() << std::endl;
SigUtil::setDebuggerSignal();
pause();
}
#endif
const bool loaded = _docManager->onLoad(getId(), getJailedFilePathAnonym(), renderOpts, doctemplate);
if (!loaded || _viewId < 0)
{
LOG_ERR("Failed to get LoKitDocument instance for [" << getJailedFilePathAnonym() << "].");
return false;
}
LOG_INF("Created new view with viewid: [" << _viewId << "] for username: [" <<
getUserNameAnonym() << "] in session: [" << getId() << "].");
if (!doctemplate.empty())
{
std::string url = getJailedFilePath();
bool success = getLOKitDocument()->saveAs(url.c_str(), nullptr, "TakeOwnership");
if (!success)
{
LOG_ERR("Failed to save template [" << getJailedFilePath() << "].");
return false;
}
}
getLOKitDocument()->setView(_viewId);
_docType = LOKitHelper::getDocumentTypeAsString(getLOKitDocument()->get());
if (_docType != "text" && part != -1)
{
getLOKitDocument()->setPart(part);
}
// Respond by the document status
LOG_DBG("Sending status after loading view " << _viewId << ".");
const std::string status = LOKitHelper::documentStatus(getLOKitDocument()->get());
if (status.empty() || !sendTextFrame("status: " + status))
{
LOG_ERR("Failed to get/forward document status [" << status << "].");
return false;
}
// Inform everyone (including this one) about updated view info
_docManager->notifyViewInfo();
sendTextFrame("editor: " + std::to_string(_docManager->getEditorId()));
LOG_INF("Loaded session " << getId());
return true;
}
bool ChildSession::sendFontRendering(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string font, text, decodedFont, decodedChar;
bool bSuccess;
if (tokens.size() < 3 ||
!getTokenString(tokens[1], "font", font))
{
sendTextFrameAndLogError("error: cmd=renderfont kind=syntax");
return false;
}
getTokenString(tokens[2], "char", text);
try
{
URI::decode(font, decodedFont);
URI::decode(text, decodedChar);
}
catch (Poco::SyntaxException& exc)
{
LOG_DBG(exc.message());
sendTextFrameAndLogError("error: cmd=renderfont kind=syntax");
return false;
}
const std::string response = "renderfont: " + tokens.cat(std::string(" "), 1) + "\n";
std::vector<char> output;
output.resize(response.size());
std::memcpy(output.data(), response.data(), response.size());
const auto start = std::chrono::system_clock::now();
// renderFont use a default font size (25) when width and height are 0
int width = 0, height = 0;
unsigned char* ptrFont = nullptr;
getLOKitDocument()->setView(_viewId);
ptrFont = getLOKitDocument()->renderFont(decodedFont.c_str(), decodedChar.c_str(), &width, &height);
const auto duration = std::chrono::system_clock::now() - start;
const auto elapsed = std::chrono::duration_cast<std::chrono::microseconds>(duration).count();
LOG_TRC("renderFont [" << font << "] rendered in " << elapsed << "ms");
if (!ptrFont)
{
return sendTextFrame(output.data(), output.size());
}
const auto mode = static_cast<LibreOfficeKitTileMode>(getLOKitDocument()->getTileMode());
if (Png::encodeBufferToPNG(ptrFont, width, height, output, mode))
{
bSuccess = sendTextFrame(output.data(), output.size());
}
else
{
bSuccess = sendTextFrameAndLogError("error: cmd=renderfont kind=failure");
}
std::free(ptrFont);
return bSuccess;
}
bool ChildSession::getStatus(const char* /*buffer*/, int /*length*/)
{
std::string status;
getLOKitDocument()->setView(_viewId);
status = LOKitHelper::documentStatus(getLOKitDocument()->get());
if (status.empty())
{
LOG_ERR("Failed to get document status.");
return false;
}
return sendTextFrame("status: " + status);
}
namespace
{
/// Given a view ID <-> user name map and a .uno:DocumentRepair result, annotate with user names.
void insertUserNames(const std::map<int, UserInfo>& viewInfo, std::string& json)
{
Poco::JSON::Parser parser;
const Poco::JSON::Object::Ptr root = parser.parse(json).extract<Poco::JSON::Object::Ptr>();
std::vector<std::string> directions { "Undo", "Redo" };
for (auto& directionName : directions)
{
Poco::JSON::Object::Ptr direction = root->get(directionName).extract<Poco::JSON::Object::Ptr>();
if (direction->get("actions").type() == typeid(Poco::JSON::Array::Ptr))
{
Poco::JSON::Array::Ptr actions = direction->get("actions").extract<Poco::JSON::Array::Ptr>();
for (auto& actionVar : *actions)
{
Poco::JSON::Object::Ptr action = actionVar.extract<Poco::JSON::Object::Ptr>();
int viewId = action->getValue<int>("viewId");
auto it = viewInfo.find(viewId);
if (it != viewInfo.end())
action->set("userName", Poco::Dynamic::Var(it->second.getUserName()));
}
}
}
std::stringstream ss;
root->stringify(ss);
json = ss.str();
}
}
bool ChildSession::getCommandValues(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
bool success;
char* values;
std::string command;
if (tokens.size() != 2 || !getTokenString(tokens[1], "command", command))
{
sendTextFrameAndLogError("error: cmd=commandvalues kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
if (command == ".uno:DocumentRepair")
{
char* undo;
const std::string jsonTemplate("{\"commandName\":\".uno:DocumentRepair\",\"Redo\":%s,\"Undo\":%s}");
values = getLOKitDocument()->getCommandValues(".uno:Redo");
undo = getLOKitDocument()->getCommandValues(".uno:Undo");
std::string json = Poco::format(jsonTemplate,
std::string(values == nullptr ? "" : values),
std::string(undo == nullptr ? "" : undo));
// json only contains view IDs, insert matching user names.
std::map<int, UserInfo> viewInfo = _docManager->getViewInfo();
insertUserNames(viewInfo, json);
success = sendTextFrame("commandvalues: " + json);
std::free(values);
std::free(undo);
}
else
{
values = getLOKitDocument()->getCommandValues(command.c_str());
success = sendTextFrame("commandvalues: " + std::string(values == nullptr ? "{}" : values));
std::free(values);
}
return success;
}
bool ChildSession::clientZoom(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int tilePixelWidth, tilePixelHeight, tileTwipWidth, tileTwipHeight;
if (tokens.size() != 5 ||
!getTokenInteger(tokens[1], "tilepixelwidth", tilePixelWidth) ||
!getTokenInteger(tokens[2], "tilepixelheight", tilePixelHeight) ||
!getTokenInteger(tokens[3], "tiletwipwidth", tileTwipWidth) ||
!getTokenInteger(tokens[4], "tiletwipheight", tileTwipHeight))
{
sendTextFrameAndLogError("error: cmd=clientzoom kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->setClientZoom(tilePixelWidth, tilePixelHeight, tileTwipWidth, tileTwipHeight);
return true;
}
bool ChildSession::clientVisibleArea(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int x;
int y;
int width;
int height;
if (tokens.size() != 5 ||
!getTokenInteger(tokens[1], "x", x) ||
!getTokenInteger(tokens[2], "y", y) ||
!getTokenInteger(tokens[3], "width", width) ||
!getTokenInteger(tokens[4], "height", height))
{
sendTextFrameAndLogError("error: cmd=clientvisiblearea kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->setClientVisibleArea(x, y, width, height);
return true;
}
bool ChildSession::outlineState(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string type, state;
int level, index;
if (tokens.size() != 5 ||
!getTokenString(tokens[1], "type", type) ||
(type != "column" && type != "row") ||
!getTokenInteger(tokens[2], "level", level) ||
!getTokenInteger(tokens[3], "index", index) ||
!getTokenString(tokens[4], "state", state) ||
(state != "visible" && state != "hidden"))
{
sendTextFrameAndLogError("error: cmd=outlinestate kind=syntax");
return false;
}
bool column = type == "column";
bool hidden = state == "hidden";
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->setOutlineState(column, level, index, hidden);
return true;
}
bool ChildSession::downloadAs(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string name, id, format, filterOptions;
if (tokens.size() < 5 ||
!getTokenString(tokens[1], "name", name) ||
!getTokenString(tokens[2], "id", id))
{
sendTextFrameAndLogError("error: cmd=downloadas kind=syntax");
return false;
}
// Obfuscate the new name.
Util::mapAnonymized(Util::getFilenameFromURL(name), _docManager->getObfuscatedFileId());
getTokenString(tokens[3], "format", format);
if (getTokenString(tokens[4], "options", filterOptions))
{
if (tokens.size() > 5)
{
filterOptions += tokens.cat(std::string(" "), 5);
}
}
// Hack pass watermark by filteroptions to saveas
if ( getWatermarkText().length() > 0) {
filterOptions += std::string(",Watermark=") + getWatermarkText() + std::string("WATERMARKEND");
}
#ifdef IOS
NSURL *docURL = [NSURL URLWithString:[NSString stringWithUTF8String:getDocURL().c_str()]];
#if 0
// Experimentation
// Check if we can figure out the name of the file provider service the document is on. (No, the
// services dictionary passed to the completion handler is always empty, except for On My iPad
// and iCloud Drive.)
[NSFileManager.defaultManager
getFileProviderServicesForItemAtURL:docURL
completionHandler:^(NSDictionary<NSFileProviderServiceName,NSFileProviderService *> *services,
NSError *error) {
if (services == nil) {
std::cerr << "Could not get file provider services for " << [[docURL absoluteString] UTF8String] << "\n";
} else if ([services count] == 0) {
std::cerr << "No file provider services returned for " << [[docURL absoluteString] UTF8String] << "\n";
} else {
std::cerr << "File provider services for " << [[docURL absoluteString] UTF8String] << ":\n";
for (auto key in [services allKeys]) {
std::cerr << " " << [(NSString*)key UTF8String] << "\n";
}
}
}];
// Check if we can figure out the "ubiquitous item container" name, which apparently means the file provider extension name.
// Alas, this seems to work only for documents on iCloud Drive.
NSError *error;
auto resources = [docURL promisedItemResourceValuesForKeys:@[NSURLUbiquitousItemContainerDisplayNameKey] error:&error];
if (resources == nil) {
std::cerr << "Could not get ubiquitous container names for " << [[docURL absoluteString] UTF8String] << "\n";
} else if ([resources count] == 0) {
std::cerr << "No ubiquitous container names for " << [[docURL absoluteString] UTF8String] << "\n";
} else {
std::cerr << "Ubiquitous container names for " << [[docURL absoluteString] UTF8String] << ":\n";
for (auto name in [resources allValues]) {
std::cerr << " " << [(NSString*)name UTF8String] << "\n";
}
}
#endif
NSArray<NSString *> *pathComponents = [docURL pathComponents];
NSString *baseName = [[pathComponents lastObject] stringByDeletingPathExtension];
NSURL *documentDirectory = [NSFileManager.defaultManager URLsForDirectory:NSDocumentDirectory inDomains:NSUserDomainMask][0];
NSString *dotFormat = [@"." stringByAppendingString:[NSString stringWithUTF8String:format.c_str()]];
NSURL *exportedURL = [documentDirectory URLByAppendingPathComponent:[baseName stringByAppendingString:dotFormat]];
LOG_TRC("Exporting as " << [[exportedURL absoluteString] UTF8String]);
getLOKitDocument()->saveAs([[exportedURL absoluteString] UTF8String],
format.empty() ? nullptr : format.c_str(),
filterOptions.empty() ? nullptr : filterOptions.c_str());
#else
// Prevent user inputting anything funny here.
// A "name" should always be a name, not a path
const Poco::Path filenameParam(name);
const std::string nameAnonym = anonymizeUrl(name);
std::string jailDoc = JAILED_DOCUMENT_ROOT;
if (NoCapsForKit)
{
jailDoc = Poco::URI(getJailedFilePath()).getPath();
jailDoc = jailDoc.substr(0, jailDoc.find(JAILED_DOCUMENT_ROOT)) + JAILED_DOCUMENT_ROOT;
}
// The file is removed upon downloading.
const std::string tmpDir = FileUtil::createRandomDir(jailDoc);
const std::string url = jailDoc + tmpDir + "/" + filenameParam.getFileName();
const std::string urlAnonym = jailDoc + tmpDir + "/" + Poco::Path(nameAnonym).getFileName();
LOG_DBG("Calling LOK's downloadAs with: url='" << urlAnonym << "', format='" <<
(format.empty() ? "(nullptr)" : format.c_str()) << "', ' filterOptions=" <<
(filterOptions.empty() ? "(nullptr)" : filterOptions.c_str()) << "'.");
getLOKitDocument()->saveAs(url.c_str(),
format.empty() ? nullptr : format.c_str(),
filterOptions.empty() ? nullptr : filterOptions.c_str());
sendTextFrame("downloadas: jail=" + _jailId + " dir=" + tmpDir + " name=" + name +
" port=" + std::to_string(ClientPortNumber) + " id=" + id);
#endif
return true;
}
bool ChildSession::getChildId()
{
sendTextFrame("getchildid: id=" + _jailId);
return true;
}
std::string ChildSession::getTextSelectionInternal(const std::string& mimeType)
{
char* textSelection = nullptr;
getLOKitDocument()->setView(_viewId);
textSelection = getLOKitDocument()->getTextSelection(mimeType.c_str(), nullptr);
std::string str(textSelection ? textSelection : "");
free(textSelection);
return str;
}
bool ChildSession::getTextSelection(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string mimeType;
if (tokens.size() != 2 ||
!getTokenString(tokens[1], "mimetype", mimeType))
{
sendTextFrameAndLogError("error: cmd=gettextselection kind=syntax");
return false;
}
if (getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_TEXT &&
getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_SPREADSHEET)
{
const std::string selection = getTextSelectionInternal(mimeType);
if (selection.size() >= 1024 * 1024) // Don't return huge data.
{
// Flag complex data so the client will download async.
sendTextFrame("complexselection:");
return true;
}
sendTextFrame("textselectioncontent: " + selection);
return true;
}
std::string selection;
const int selectionType = getLOKitDocument()->getSelectionType();
if (selectionType == LOK_SELTYPE_LARGE_TEXT || selectionType == LOK_SELTYPE_COMPLEX ||
(selection = getTextSelectionInternal(mimeType)).size() >= 1024 * 1024) // Don't return huge data.
{
// Flag complex data so the client will download async.
sendTextFrame("complexselection:");
return true;
}
sendTextFrame("textselectioncontent: " + selection);
return true;
}
bool ChildSession::getClipboard(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
const char **pMimeTypes = nullptr; // fetch all for now.
const char *pOneType[2];
size_t nOutCount = 0;
char **pOutMimeTypes = nullptr;
size_t *pOutSizes = nullptr;
char **pOutStreams = nullptr;
bool hasMimeRequest = tokens.size() > 1;
if (hasMimeRequest)
{
pMimeTypes = pOneType;
pMimeTypes[0] = tokens[1].c_str();
pMimeTypes[1] = nullptr;
}
bool success = false;
getLOKitDocument()->setView(_viewId);
success = getLOKitDocument()->getClipboard(pMimeTypes, &nOutCount, &pOutMimeTypes,
&pOutSizes, &pOutStreams);
if (!success || nOutCount == 0)
{
LOG_WRN("Get clipboard failed " << getLOKitLastError());
sendTextFrame("clipboardcontent: error");
return false;
}
size_t outGuess = 32;
for (size_t i = 0; i < nOutCount; ++i)
outGuess += pOutSizes[i] + strlen(pOutMimeTypes[i]) + 10;
std::vector<char> output;
output.reserve(outGuess);
// FIXME: extra 'content' is necessary for Message parsing.
Util::vectorAppend(output, "clipboardcontent: content\n");
LOG_TRC("Building clipboardcontent: " << nOutCount << " items");
for (size_t i = 0; i < nOutCount; ++i)
{
LOG_TRC("\t[" << i << " - type " << pOutMimeTypes[i] << " size " << pOutSizes[i]);
Util::vectorAppend(output, pOutMimeTypes[i]);
free(pOutMimeTypes[i]);
Util::vectorAppend(output, "\n", 1);
Util::vectorAppendHex(output, pOutSizes[i]);
Util::vectorAppend(output, "\n", 1);
Util::vectorAppend(output, pOutStreams[i], pOutSizes[i]);
free(pOutStreams[i]);
Util::vectorAppend(output, "\n", 1);
}
free(pOutSizes);
free(pOutMimeTypes);
free(pOutStreams);
LOG_TRC("Sending clipboardcontent of size " << output.size() << " bytes");
sendBinaryFrame(output.data(), output.size());
return true;
}
bool ChildSession::setClipboard(const char* buffer, int length, const StringVector& /* tokens */)
{
try {
ClipboardData data;
Poco::MemoryInputStream stream(buffer, length);
std::string command; // skip command
std::getline(stream, command, '\n');
data.read(stream);
// data.dumpState(std::cerr);
size_t nInCount = data.size();
size_t pInSizes[nInCount];
const char *pInMimeTypes[nInCount];
const char *pInStreams[nInCount];
for (size_t i = 0; i < nInCount; ++i)
{
pInSizes[i] = data._content[i].length();
pInStreams[i] = data._content[i].c_str();
pInMimeTypes[i] = data._mimeTypes[i].c_str();
}
getLOKitDocument()->setView(_viewId);
if (!getLOKitDocument()->setClipboard(nInCount, pInMimeTypes, pInSizes, pInStreams))
LOG_ERR("set clipboard returned failure");
else
LOG_TRC("set clipboard succeeded");
} catch (const std::exception& ex) {
LOG_ERR("set clipboard failed with exception: " << ex.what());
} catch (...) {
LOG_ERR("set clipboard failed with exception");
}
// FIXME: implement me [!] ...
return false;
}
bool ChildSession::paste(const char* buffer, int length, const StringVector& tokens)
{
std::string mimeType;
if (tokens.size() < 2 || !getTokenString(tokens[1], "mimetype", mimeType) ||
mimeType.empty())
{
sendTextFrameAndLogError("error: cmd=paste kind=syntax");
return false;
}
if (mimeType.find("application/x-openoffice-embed-source-xml") == 0)
{
LOG_TRC("Re-writing garbled mime-type " << mimeType);
mimeType = "application/x-openoffice-embed-source-xml;windows_formatname=\"Star Embed Source (XML)\"";
}
const std::string firstLine = getFirstLine(buffer, length);
const char* data = buffer + firstLine.size() + 1;
const int size = length - firstLine.size() - 1;
bool success = false;
std::string result = "pasteresult: ";
if (size > 0)
{
getLOKitDocument()->setView(_viewId);
if (Log::logger().trace())
{
// Ensure 8 byte alignment for the start of the data, SpookyHash needs it.
std::vector<char> toHash(data, data + size);
LOG_TRC("Paste data of size " << size << " bytes and hash " << SpookyHash::Hash64(toHash.data(), toHash.size(), 0));
}
success = getLOKitDocument()->paste(mimeType.c_str(), data, size);
if (!success)
LOG_WRN("Paste failed " << getLOKitLastError());
}
if (success)
result += "success";
else
result += "fallback";
sendTextFrame(result);
return true;
}
bool ChildSession::insertFile(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string name, type;
#if !MOBILEAPP
if (tokens.size() != 3 ||
!getTokenString(tokens[1], "name", name) ||
!getTokenString(tokens[2], "type", type))
{
sendTextFrameAndLogError("error: cmd=insertfile kind=syntax");
return false;
}
#else
std::string data;
if (tokens.size() != 4 ||
!getTokenString(tokens[1], "name", name) ||
!getTokenString(tokens[2], "type", type) ||
!getTokenString(tokens[3], "data", data))
{
sendTextFrameAndLogError("error: cmd=insertfile kind=syntax");
return false;
}
#endif
if (type == "graphic" || type == "graphicurl" || type == "selectbackground")
{
std::string url;
#if !MOBILEAPP
if (type == "graphic" || type == "selectbackground")
url = "file://" + std::string(JAILED_DOCUMENT_ROOT) + "insertfile/" + name;
else if (type == "graphicurl")
URI::decode(name, url);
#else
assert(type == "graphic");
auto binaryData = decodeBase64(data);
std::string tempFile = Util::createRandomTmpDir() + "/" + name;
std::ofstream fileStream;
fileStream.open(tempFile);
fileStream.write(reinterpret_cast<char*>(binaryData.data()), binaryData.size());
fileStream.close();
url = "file://" + tempFile;
#endif
const std::string command = (type == "selectbackground" ? ".uno:SelectBackground" : ".uno:InsertGraphic");
const std::string arguments = "{"
"\"FileName\":{"
"\"type\":\"string\","
"\"value\":\"" + url + "\""
"}}";
getLOKitDocument()->setView(_viewId);
LOG_TRC("Inserting " << type << ": " << command << ' ' << arguments.c_str());
getLOKitDocument()->postUnoCommand(command.c_str(), arguments.c_str(), false);
}
return true;
}
bool ChildSession::extTextInputEvent(const char* /*buffer*/, int /*length*/,
const StringVector& tokens)
{
int id, type;
std::string text;
if (tokens.size() < 4 ||
!getTokenInteger(tokens[1], "id", id) || id < 0 ||
!getTokenKeyword(tokens[2], "type",
{{"input", LOK_EXT_TEXTINPUT}, {"end", LOK_EXT_TEXTINPUT_END}},
type) ||
!getTokenString(tokens[3], "text", text))
{
sendTextFrameAndLogError("error: cmd=" + std::string(tokens[0]) + " kind=syntax");
return false;
}
std::string decodedText;
URI::decode(text, decodedText);
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->postWindowExtTextInputEvent(id, type, decodedText.c_str());
return true;
}
bool ChildSession::keyEvent(const char* /*buffer*/, int /*length*/,
const StringVector& tokens,
const LokEventTargetEnum target)
{
int type, charcode, keycode;
unsigned winId = 0;
unsigned counter = 1;
unsigned expectedTokens = 4; // cmdname(key), type, char, key are strictly required
if (target == LokEventTargetEnum::Window)
{
if (tokens.size() <= counter ||
!getTokenUInt32(tokens[counter++], "id", winId))
{
LOG_ERR("Window key event expects a valid id= attribute");
sendTextFrameAndLogError("error: cmd=" + std::string(tokens[0]) + " kind=syntax");
return false;
}
else // id= attribute is found
expectedTokens++;
}
if (tokens.size() != expectedTokens ||
!getTokenKeyword(tokens[counter++], "type",
{{"input", LOK_KEYEVENT_KEYINPUT}, {"up", LOK_KEYEVENT_KEYUP}},
type) ||
!getTokenInteger(tokens[counter++], "char", charcode) ||
!getTokenInteger(tokens[counter++], "key", keycode))
{
sendTextFrameAndLogError("error: cmd=" + std::string(tokens[0]) + " kind=syntax");
return false;
}
// Don't close LO window!
constexpr int KEY_CTRL = 0x2000;
constexpr int KEY_W = 0x0216;
if (keycode == (KEY_CTRL | KEY_W))
{
return true;
}
// Ctrl+Tab switching browser tabs,
// Doesn't insert tabs.
constexpr int KEY_TAB = 0x0502;
if (keycode == (KEY_CTRL | KEY_TAB))
{
return true;
}
getLOKitDocument()->setView(_viewId);
if (target == LokEventTargetEnum::Document)
getLOKitDocument()->postKeyEvent(type, charcode, keycode);
else if (winId != 0)
getLOKitDocument()->postWindowKeyEvent(winId, type, charcode, keycode);
return true;
}
bool ChildSession::gestureEvent(const char* /*buffer*/, int /*length*/,
const StringVector& tokens)
{
bool success = true;
unsigned int windowID = 0;
int x;
int y;
int offset;
std::string type;
if (tokens.size() < 6)
success = false;
if (!success ||
!getTokenUInt32(tokens[1], "id", windowID) ||
!getTokenString(tokens[2], "type", type) ||
!getTokenInteger(tokens[3], "x", x) ||
!getTokenInteger(tokens[4], "y", y) ||
!getTokenInteger(tokens[5], "offset", offset))
{
success = false;
}
if (!success)
{
sendTextFrameAndLogError("error: cmd=" + std::string(tokens[0]) + " kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->postWindowGestureEvent(windowID, type.c_str(), x, y, offset);
return true;
}
bool ChildSession::mouseEvent(const char* /*buffer*/, int /*length*/,
const StringVector& tokens,
const LokEventTargetEnum target)
{
int type, x, y, count;
bool success = true;
// default values for compatibility reasons with older loleaflets
int buttons = 1; // left button
int modifier = 0;
unsigned winId = 0;
unsigned counter = 1;
unsigned minTokens = 5; // cmdname(mouse), type, x, y, count are strictly required
if (target == LokEventTargetEnum::Window)
{
if (tokens.size() <= counter ||
!getTokenUInt32(tokens[counter++], "id", winId))
{
LOG_ERR("Window mouse event expects a valid id= attribute");
success = false;
}
else // id= attribute is found
minTokens++;
}
if (tokens.size() < minTokens ||
!getTokenKeyword(tokens[counter++], "type",
{{"buttondown", LOK_MOUSEEVENT_MOUSEBUTTONDOWN},
{"buttonup", LOK_MOUSEEVENT_MOUSEBUTTONUP},
{"move", LOK_MOUSEEVENT_MOUSEMOVE}},
type) ||
!getTokenInteger(tokens[counter++], "x", x) ||
!getTokenInteger(tokens[counter++], "y", y) ||
!getTokenInteger(tokens[counter++], "count", count))
{
success = false;
}
// compatibility with older loleaflets
if (success && tokens.size() > counter && !getTokenInteger(tokens[counter++], "buttons", buttons))
success = false;
// compatibility with older loleaflets
if (success && tokens.size() > counter && !getTokenInteger(tokens[counter++], "modifier", modifier))
success = false;
if (!success)
{
sendTextFrameAndLogError("error: cmd=" + std::string(tokens[0]) + " kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
switch (target)
{
case LokEventTargetEnum::Document:
getLOKitDocument()->postMouseEvent(type, x, y, count, buttons, modifier);
break;
case LokEventTargetEnum::Window:
getLOKitDocument()->postWindowMouseEvent(winId, type, x, y, count, buttons, modifier);
break;
default:
assert(false && "Unsupported mouse target type");
}
return true;
}
bool ChildSession::dialogEvent(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
if (tokens.size() <= 2)
{
sendTextFrameAndLogError("error: cmd=dialogevent kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
unsigned nLOKWindowId = std::stoi(tokens[1].c_str());
getLOKitDocument()->sendDialogEvent(nLOKWindowId,
tokens.cat(std::string(" "), 2).c_str());
return true;
}
bool ChildSession::completeFunction(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int index;
if (tokens.size() != 2 ||
!getTokenInteger(tokens[1], "index", index))
{
sendTextFrameAndLogError("error: cmd=completefunction kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->completeFunction(index);
return true;
}
bool ChildSession::unoCommand(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
if (tokens.size() <= 1)
{
sendTextFrameAndLogError("error: cmd=uno kind=syntax");
return false;
}
// we need to get LOK_CALLBACK_UNO_COMMAND_RESULT callback when saving
const bool bNotify = (tokens[1] == ".uno:Save" ||
tokens[1] == ".uno:Undo" ||
tokens[1] == ".uno:Redo" ||
Util::startsWith(tokens[1], "vnd.sun.star.script:"));
getLOKitDocument()->setView(_viewId);
if (tokens.size() == 2)
{
if (tokens[1] == ".uno:fakeDiskFull")
{
Util::alertAllUsers("internal", "diskfull");
}
else
{
if (tokens[1] == ".uno:Copy")
_copyToClipboard = true;
getLOKitDocument()->postUnoCommand(tokens[1].c_str(), nullptr, bNotify);
}
}
else
{
getLOKitDocument()->postUnoCommand(tokens[1].c_str(),
tokens.cat(std::string(" "), 2).c_str(),
bNotify);
}
return true;
}
bool ChildSession::selectText(const char* /*buffer*/, int /*length*/,
const StringVector& tokens,
const LokEventTargetEnum target)
{
std::string swap;
unsigned winId = 0;
int type, x, y;
if (target == LokEventTargetEnum::Window)
{
if (tokens.size() != 5 ||
!getTokenUInt32(tokens[1], "id", winId) ||
!getTokenString(tokens[2], "swap", swap) ||
(swap != "true" && swap != "false") ||
!getTokenInteger(tokens[3], "x", x) ||
!getTokenInteger(tokens[4], "y", y))
{
LOG_ERR("error: cmd=windowselecttext kind=syntax");
return false;
}
}
else if (target == LokEventTargetEnum::Document)
{
if (tokens.size() != 4 ||
!getTokenKeyword(tokens[1], "type",
{{"start", LOK_SETTEXTSELECTION_START},
{"end", LOK_SETTEXTSELECTION_END},
{"reset", LOK_SETTEXTSELECTION_RESET}},
type) ||
!getTokenInteger(tokens[2], "x", x) ||
!getTokenInteger(tokens[3], "y", y))
{
sendTextFrameAndLogError("error: cmd=selecttext kind=syntax");
return false;
}
}
getLOKitDocument()->setView(_viewId);
switch (target)
{
case LokEventTargetEnum::Document:
getLOKitDocument()->setTextSelection(type, x, y);
break;
case LokEventTargetEnum::Window:
getLOKitDocument()->setWindowTextSelection(winId, swap == "true", x, y);
break;
default:
assert(false && "Unsupported select text target type");
}
return true;
}
bool ChildSession::renderWindow(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
const unsigned winId = (tokens.size() > 1 ? std::stoul(tokens[1]) : 0);
int startX = 0, startY = 0;
int bufferWidth = 800, bufferHeight = 600;
double dpiScale = 1.0;
std::string paintRectangle;
if (tokens.size() > 2 && getTokenString(tokens[2], "rectangle", paintRectangle)
&& paintRectangle != "undefined")
{
const StringVector rectParts
= LOOLProtocol::tokenize(paintRectangle.c_str(), paintRectangle.length(), ',');
if (rectParts.size() == 4)
{
startX = std::atoi(rectParts[0].c_str());
startY = std::atoi(rectParts[1].c_str());
bufferWidth = std::atoi(rectParts[2].c_str());
bufferHeight = std::atoi(rectParts[3].c_str());
}
}
else
LOG_WRN("windowpaint command doesn't specify a rectangle= attribute.");
std::string dpiScaleString;
if (tokens.size() > 3 && getTokenString(tokens[3], "dpiscale", dpiScaleString))
{
dpiScale = std::stod(dpiScaleString);
if (dpiScale < 0.001)
dpiScale = 1.0;
}
size_t pixmapDataSize = 4 * bufferWidth * bufferHeight;
std::vector<unsigned char> pixmap(pixmapDataSize);
int width = bufferWidth, height = bufferHeight;
std::string response;
const auto start = std::chrono::system_clock::now();
getLOKitDocument()->paintWindow(winId, pixmap.data(), startX, startY, width, height, dpiScale, _viewId);
const double area = width * height;
const auto duration = std::chrono::system_clock::now() - start;
const auto elapsed = std::chrono::duration_cast<std::chrono::microseconds>(duration).count();
const double totalTime = elapsed/1000.;
LOG_TRC("paintWindow for " << winId << " returned " << width << "X" << height
<< "@(" << startX << "," << startY << ")"
<< " with dpi scale: " << dpiScale
<< " and rendered in " << totalTime
<< "ms (" << area / elapsed << " MP/s).");
response = "windowpaint: id=" + tokens[1] +
" width=" + std::to_string(width) + " height=" + std::to_string(height);
if (!paintRectangle.empty())
response += " rectangle=" + paintRectangle;
response += "\n";
std::vector<char> output;
output.reserve(response.size() + pixmapDataSize);
output.resize(response.size());
std::memcpy(output.data(), response.data(), response.size());
const auto mode = static_cast<LibreOfficeKitTileMode>(getLOKitDocument()->getTileMode());
// TODO: use png cache for dialogs too
if (!Png::encodeSubBufferToPNG(pixmap.data(), 0, 0, width, height, bufferWidth, bufferHeight, output, mode))
{
LOG_ERR("Failed to encode into PNG.");
return false;
}
LOG_TRC("Sending response (" << output.size() << " bytes) for: " << response);
sendBinaryFrame(output.data(), output.size());
return true;
}
bool ChildSession::resizeWindow(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
const unsigned winId = (tokens.size() > 1 ? std::stoul(tokens[1].c_str(), nullptr, 10) : 0);
getLOKitDocument()->setView(_viewId);
std::string size;
if (tokens.size() > 2 && getTokenString(tokens[2], "size", size))
{
const std::vector<int> sizeParts = LOOLProtocol::tokenizeInts(size, ',');
if (sizeParts.size() == 2)
{
getLOKitDocument()->resizeWindow(winId, sizeParts[0], sizeParts[1]);
return true;
}
}
LOG_WRN("resizewindow command doesn't specify sensible size= attribute.");
return true;
}
bool ChildSession::sendWindowCommand(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
const unsigned winId = (tokens.size() > 1 ? std::stoul(tokens[1]) : 0);
getLOKitDocument()->setView(_viewId);
if (tokens.size() > 2 && tokens[2] == "close")
getLOKitDocument()->postWindow(winId, LOK_WINDOW_CLOSE, nullptr);
else if (tokens.size() > 3 && tokens[2] == "paste")
getLOKitDocument()->postWindow(winId, LOK_WINDOW_PASTE, tokens[3].c_str());
return true;
}
namespace
{
std::string extractCertificate(const std::string & certificate)
{
const std::string header("-----BEGIN CERTIFICATE-----");
const std::string footer("-----END CERTIFICATE-----");
std::string result;
size_t pos1 = certificate.find(header);
if (pos1 == std::string::npos)
return result;
size_t pos2 = certificate.find(footer, pos1 + 1);
if (pos2 == std::string::npos)
return result;
pos1 = pos1 + std::string(header).length();
pos2 = pos2 - pos1;
return certificate.substr(pos1, pos2);
}
std::string extractPrivateKey(const std::string & privateKey)
{
const std::string header("-----BEGIN PRIVATE KEY-----");
const std::string footer("-----END PRIVATE KEY-----");
std::string result;
size_t pos1 = privateKey.find(header);
if (pos1 == std::string::npos)
return result;
size_t pos2 = privateKey.find(footer, pos1 + 1);
if (pos2 == std::string::npos)
return result;
pos1 = pos1 + std::string(header).length();
pos2 = pos2 - pos1;
return privateKey.substr(pos1, pos2);
}
}
bool ChildSession::signDocumentContent(const char* buffer, int length, const StringVector& /*tokens*/)
{
bool bResult = true;
const std::string firstLine = getFirstLine(buffer, length);
const char* data = buffer + firstLine.size() + 1;
const int size = length - firstLine.size() - 1;
std::string json(data, size);
Poco::JSON::Parser parser;
Poco::JSON::Object::Ptr root = parser.parse(json).extract<Poco::JSON::Object::Ptr>();
for (auto& rChainPtr : *root->getArray("chain"))
{
if (!rChainPtr.isString())
return false;
std::string chainCertificate = rChainPtr;
std::vector<unsigned char> binaryChainCertificate = decodeBase64(extractCertificate(chainCertificate));
bResult = getLOKitDocument()->addCertificate(
binaryChainCertificate.data(),
binaryChainCertificate.size());
if (!bResult)
return false;
}
std::string x509Certificate = JsonUtil::getJSONValue<std::string>(root, "x509Certificate");
std::vector<unsigned char> binaryCertificate = decodeBase64(extractCertificate(x509Certificate));
std::string privateKey = JsonUtil::getJSONValue<std::string>(root, "privateKey");
std::vector<unsigned char> binaryPrivateKey = decodeBase64(extractPrivateKey(privateKey));
bResult = getLOKitDocument()->insertCertificate(
binaryCertificate.data(), binaryCertificate.size(),
binaryPrivateKey.data(), binaryPrivateKey.size());
return bResult;
}
#if !MOBILEAPP
bool ChildSession::exportSignAndUploadDocument(const char* buffer, int length, const StringVector& /*tokens*/)
{
bool bResult = false;
std::string filename;
std::string wopiUrl;
std::string token;
std::string filetype;
std::string x509Certificate;
std::string privateKey;
std::vector<std::string> certificateChain;
{ // parse JSON
const std::string firstLine = getFirstLine(buffer, length);
const char* data = buffer + firstLine.size() + 1;
const int size = length - firstLine.size() - 1;
std::string json(data, size);
Poco::JSON::Parser parser;
Poco::JSON::Object::Ptr root = parser.parse(json).extract<Poco::JSON::Object::Ptr>();
filename = JsonUtil::getJSONValue<std::string>(root, "filename");
wopiUrl = JsonUtil::getJSONValue<std::string>(root, "wopiUrl");
token = JsonUtil::getJSONValue<std::string>(root, "token");
filetype = JsonUtil::getJSONValue<std::string>(root, "type");
x509Certificate = JsonUtil::getJSONValue<std::string>(root, "x509Certificate");
privateKey = JsonUtil::getJSONValue<std::string>(root, "privateKey");
for (auto& rChainPtr : *root->getArray("chain"))
{
if (!rChainPtr.isString())
{
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=syntax");
return false;
}
std::string chainCertificate = rChainPtr;
certificateChain.push_back(chainCertificate);
}
}
if (filetype.empty() || filename.empty() || wopiUrl.empty() || token.empty() || x509Certificate.empty() || privateKey.empty())
{
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=syntax");
return false;
}
std::string mimetype = getMimeFromFileType(filetype);
if (mimetype.empty())
{
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=syntax");
return false;
}
// add certificate chain
for (auto const & certificate : certificateChain)
{
std::vector<unsigned char> binaryChainCertificate = decodeBase64(extractCertificate(certificate));
bResult = getLOKitDocument()->addCertificate(
binaryChainCertificate.data(),
binaryChainCertificate.size());
if (!bResult)
{
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=syntax");
return false;
}
}
// export document to a temp file
const std::string aTempDir = FileUtil::createRandomDir(JAILED_DOCUMENT_ROOT);
const Poco::Path filenameParam(filename);
const std::string aTempDocumentURL = JAILED_DOCUMENT_ROOT + aTempDir + "/" + filenameParam.getFileName();
getLOKitDocument()->saveAs(aTempDocumentURL.c_str(), filetype.c_str(), nullptr);
// sign document
{
std::vector<unsigned char> binaryCertificate = decodeBase64(extractCertificate(x509Certificate));
std::vector<unsigned char> binaryPrivateKey = decodeBase64(extractPrivateKey(privateKey));
bResult = _docManager->getLOKit()->signDocument(aTempDocumentURL.c_str(),
binaryCertificate.data(), binaryCertificate.size(),
binaryPrivateKey.data(), binaryPrivateKey.size());
if (!bResult)
{
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=syntax");
return false;
}
}
// upload
Authorization authorization(Authorization::Type::Token, token);
Poco::URI uriObject(wopiUrl + "/" + filename + "/contents");
authorization.authorizeURI(uriObject);
try
{
Poco::Net::initializeSSL();
Poco::Net::Context::Params sslClientParams;
sslClientParams.verificationMode = Poco::Net::Context::VERIFY_NONE;
Poco::SharedPtr<Poco::Net::PrivateKeyPassphraseHandler> consoleClientHandler = new Poco::Net::KeyConsoleHandler(false);
Poco::SharedPtr<Poco::Net::InvalidCertificateHandler> invalidClientCertHandler = new Poco::Net::AcceptCertificateHandler(false);
Poco::Net::Context::Ptr sslClientContext = new Poco::Net::Context(Poco::Net::Context::CLIENT_USE, sslClientParams);
Poco::Net::SSLManager::instance().initializeClient(consoleClientHandler, invalidClientCertHandler, sslClientContext);
std::unique_ptr<Poco::Net::HTTPClientSession> psession;
psession.reset(new Poco::Net::HTTPSClientSession(
uriObject.getHost(),
uriObject.getPort(),
Poco::Net::SSLManager::instance().defaultClientContext()));
Poco::Net::HTTPRequest request(Poco::Net::HTTPRequest::HTTP_POST, uriObject.getPathAndQuery(), Poco::Net::HTTPMessage::HTTP_1_1);
request.set("User-Agent", WOPI_AGENT_STRING);
authorization.authorizeRequest(request);
request.set("X-WOPI-Override", "PUT");
const size_t filesize = getFileSize(aTempDocumentURL);
request.setContentType(mimetype);
request.setContentLength(filesize);
std::ostream& httpOutputStream = psession->sendRequest(request);
std::ifstream inputFileStream(aTempDocumentURL);
Poco::StreamCopier::copyStream(inputFileStream, httpOutputStream);
Poco::Net::HTTPResponse response;
std::istream& responseStream = psession->receiveResponse(response);
std::ostringstream outputStringStream;
Poco::StreamCopier::copyStream(responseStream, outputStringStream);
std::string responseString = outputStringStream.str();
if (response.getStatus() != Poco::Net::HTTPResponse::HTTP_OK &&
response.getStatus() != Poco::Net::HTTPResponse::HTTP_CREATED)
{
LOG_ERR("Upload signed document HTTP Response Error: " << response.getStatus() << ' ' << response.getReason());
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=httpresponse");
return false;
}
}
catch (const Poco::Exception& pocoException)
{
LOG_ERR("Upload signed document Exception: " + pocoException.displayText());
sendTextFrameAndLogError("error: cmd=exportsignanduploaddocument kind=failure");
return false;
}
sendTextFrame("signeddocumentuploadstatus: OK");
return true;
}
#endif
bool ChildSession::askSignatureStatus(const char* buffer, int length, const StringVector& /*tokens*/)
{
bool bResult = true;
const std::string firstLine = getFirstLine(buffer, length);
const char* data = buffer + firstLine.size() + 1;
const int size = length - firstLine.size() - 1;
std::string json(data, size);
Poco::JSON::Parser parser;
Poco::JSON::Object::Ptr root = parser.parse(json).extract<Poco::JSON::Object::Ptr>();
if (root)
{
for (auto& rChainPtr : *root->getArray("certificates"))
{
if (!rChainPtr.isString())
return false;
std::string chainCertificate = rChainPtr;
std::vector<unsigned char> binaryChainCertificate = decodeBase64(extractCertificate(chainCertificate));
bResult = getLOKitDocument()->addCertificate(
binaryChainCertificate.data(),
binaryChainCertificate.size());
if (!bResult)
return false;
}
}
int nStatus = getLOKitDocument()->getSignatureState();
sendTextFrame("signaturestatus: " + std::to_string(nStatus));
return true;
}
bool ChildSession::selectGraphic(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int type, x, y;
if (tokens.size() != 4 ||
!getTokenKeyword(tokens[1], "type",
{{"start", LOK_SETGRAPHICSELECTION_START},
{"end", LOK_SETGRAPHICSELECTION_END}},
type) ||
!getTokenInteger(tokens[2], "x", x) ||
!getTokenInteger(tokens[3], "y", y))
{
sendTextFrameAndLogError("error: cmd=selectgraphic kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->setGraphicSelection(type, x, y);
return true;
}
bool ChildSession::resetSelection(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
if (tokens.size() != 1)
{
sendTextFrameAndLogError("error: cmd=resetselection kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->resetSelection();
return true;
}
bool ChildSession::saveAs(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string wopiFilename, url, format, filterOptions;
if (tokens.size() <= 1 ||
!getTokenString(tokens[1], "url", url))
{
sendTextFrameAndLogError("error: cmd=saveas kind=syntax");
return false;
}
// if the url is a 'wopi:///something/blah.odt', then save to a temporary
Poco::URI wopiURL(url);
if (wopiURL.getScheme() == "wopi")
{
std::vector<std::string> pathSegments;
wopiURL.getPathSegments(pathSegments);
if (pathSegments.size() == 0)
{
sendTextFrameAndLogError("error: cmd=saveas kind=syntax");
return false;
}
// TODO do we need a tempdir here?
url = std::string("file://") + JAILED_DOCUMENT_ROOT + pathSegments[pathSegments.size() - 1];
wopiFilename = wopiURL.getPath();
}
if (tokens.size() > 2)
getTokenString(tokens[2], "format", format);
if (tokens.size() > 3 && getTokenString(tokens[3], "options", filterOptions))
{
if (tokens.size() > 4)
{
filterOptions += tokens.cat(std::string(" "), 4);
}
}
bool success = false;
if (filterOptions.empty() && format == "html")
{
// Opt-in to avoid linked images, those would not leave the chroot.
filterOptions = "EmbedImages";
}
// We don't have the FileId at this point, just a new filename to save-as.
// So here the filename will be obfuscated with some hashing, which later will
// get a proper FileId that we will use going forward.
LOG_DBG("Calling LOK's saveAs with: '" << anonymizeUrl(wopiFilename) << "', '" <<
(format.size() == 0 ? "(nullptr)" : format.c_str()) << "', '" <<
(filterOptions.size() == 0 ? "(nullptr)" : filterOptions.c_str()) << "'.");
getLOKitDocument()->setView(_viewId);
success = getLOKitDocument()->saveAs(url.c_str(),
format.empty() ? nullptr : format.c_str(),
filterOptions.empty() ? nullptr : filterOptions.c_str());
if (!success)
{
// a desperate try - add an extension hoping that it'll help
bool retry = true;
switch (getLOKitDocument()->getDocumentType())
{
case LOK_DOCTYPE_TEXT: url += ".odt"; wopiFilename += ".odt"; break;
case LOK_DOCTYPE_SPREADSHEET: url += ".ods"; wopiFilename += ".ods"; break;
case LOK_DOCTYPE_PRESENTATION: url += ".odp"; wopiFilename += ".odp"; break;
case LOK_DOCTYPE_DRAWING: url += ".odg"; wopiFilename += ".odg"; break;
default: retry = false; break;
}
if (retry)
{
LOG_DBG("Retry: calling LOK's saveAs with: '" << url.c_str() << "', '" <<
(format.size() == 0 ? "(nullptr)" : format.c_str()) << "', '" <<
(filterOptions.size() == 0 ? "(nullptr)" : filterOptions.c_str()) << "'.");
success = getLOKitDocument()->saveAs(url.c_str(),
format.size() == 0 ? nullptr :format.c_str(),
filterOptions.size() == 0 ? nullptr : filterOptions.c_str());
}
}
std::string encodedURL, encodedWopiFilename;
Poco::URI::encode(url, "", encodedURL);
Poco::URI::encode(wopiFilename, "", encodedWopiFilename);
if (success)
sendTextFrame("saveas: url=" + encodedURL + " filename=" + encodedWopiFilename);
else
sendTextFrameAndLogError("error: cmd=storage kind=savefailed");
return true;
}
bool ChildSession::setClientPart(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int part;
if (tokens.size() < 2 ||
!getTokenInteger(tokens[1], "part", part))
{
sendTextFrameAndLogError("error: cmd=setclientpart kind=invalid");
return false;
}
getLOKitDocument()->setView(_viewId);
if (getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_TEXT && part != getLOKitDocument()->getPart())
{
getLOKitDocument()->setPart(part);
}
return true;
}
bool ChildSession::selectClientPart(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int nPart;
int nSelect;
if (tokens.size() < 3 ||
!getTokenInteger(tokens[1], "part", nPart) ||
!getTokenInteger(tokens[2], "how", nSelect))
{
sendTextFrameAndLogError("error: cmd=selectclientpart kind=invalid");
return false;
}
getLOKitDocument()->setView(_viewId);
if (getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_TEXT)
{
if (nPart != getLOKitDocument()->getPart())
{
getLOKitDocument()->selectPart(nPart, nSelect);
// Notify the client of the selection update.
const std::string status = LOKitHelper::documentStatus(getLOKitDocument()->get());
if (!status.empty())
return sendTextFrame("statusupdate: " + status);
}
}
else
{
LOG_WRN("ChildSession::selectClientPart[" << getName() << "]: error selecting part on text documents.");
}
return true;
}
bool ChildSession::moveSelectedClientParts(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int nPosition;
if (tokens.size() < 2 ||
!getTokenInteger(tokens[1], "position", nPosition))
{
sendTextFrameAndLogError("error: cmd=moveselectedclientparts kind=invalid");
return false;
}
getLOKitDocument()->setView(_viewId);
if (getLOKitDocument()->getDocumentType() != LOK_DOCTYPE_TEXT)
{
getLOKitDocument()->moveSelectedParts(nPosition, false); // Move, don't duplicate.
// Get the status to notify clients of the reordering and selection change.
const std::string status = LOKitHelper::documentStatus(getLOKitDocument()->get());
if (!status.empty())
return _docManager->notifyAll("statusupdate: " + status);
}
else
{
LOG_WRN("ChildSession::moveSelectedClientParts[" << getName() << "]: error moving parts on text documents.");
}
return true; // Non-fatal to fail.
}
bool ChildSession::setPage(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
int page;
if (tokens.size() < 2 ||
!getTokenInteger(tokens[1], "page", page))
{
sendTextFrameAndLogError("error: cmd=setpage kind=invalid");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->setPart(page);
return true;
}
bool ChildSession::renderShapeSelection(const char* /*buffer*/, int /*length*/, const StringVector& tokens)
{
std::string mimeType;
if (tokens.size() != 2 ||
!getTokenString(tokens[1], "mimetype", mimeType) ||
mimeType != "image/svg+xml")
{
sendTextFrameAndLogError("error: cmd=rendershapeselection kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
char* pOutput = nullptr;
const std::size_t nOutputSize = getLOKitDocument()->renderShapeSelection(&pOutput);
if (pOutput != nullptr && nOutputSize > 0)
{
static const std::string header = "shapeselectioncontent:\n";
size_t responseSize = header.size() + nOutputSize;
std::unique_ptr<char[]> response(new char[responseSize]);
std::memcpy(response.get(), header.data(), header.size());
std::memcpy(response.get() + header.size(), pOutput, nOutputSize);
free(pOutput);
LOG_TRC("Sending response (" << responseSize << " bytes) for shapeselectioncontent on view #" << _viewId);
sendBinaryFrame(response.get(), responseSize);
}
else
{
LOG_ERR("Failed to renderShapeSelection for view #" << _viewId);
}
return true;
}
bool ChildSession::removeTextContext(const char* /*buffer*/, int /*length*/,
const StringVector& tokens)
{
int id, before, after;
std::string text;
if (tokens.size() < 4 ||
!getTokenInteger(tokens[1], "id", id) || id < 0 ||
!getTokenInteger(tokens[2], "before", before) ||
!getTokenInteger(tokens[3], "after", after))
{
sendTextFrameAndLogError("error: cmd=" + std::string(tokens[0]) + " kind=syntax");
return false;
}
getLOKitDocument()->setView(_viewId);
getLOKitDocument()->removeTextContext(id, before, after);
return true;
}
/* If the user is inactive we have to remember important events so that when
* the user becomes active again, we can replay the events.
*/
void ChildSession::rememberEventsForInactiveUser(const int type, const std::string& payload)
{
if (type == LOK_CALLBACK_INVALIDATE_TILES)
{
_stateRecorder.recordInvalidate(); // TODO remember the area, not just a bool ('true' invalidates everything)
}
else if (type == LOK_CALLBACK_INVALIDATE_VISIBLE_CURSOR ||
type == LOK_CALLBACK_CURSOR_VISIBLE ||
type == LOK_CALLBACK_TEXT_SELECTION ||
type == LOK_CALLBACK_TEXT_SELECTION_START ||
type == LOK_CALLBACK_TEXT_SELECTION_END ||
type == LOK_CALLBACK_CELL_FORMULA ||
type == LOK_CALLBACK_CELL_CURSOR ||
type == LOK_CALLBACK_GRAPHIC_SELECTION ||
type == LOK_CALLBACK_DOCUMENT_SIZE_CHANGED ||
type == LOK_CALLBACK_INVALIDATE_HEADER ||
type == LOK_CALLBACK_CELL_ADDRESS ||
type == LOK_CALLBACK_REFERENCE_MARKS)
{
_stateRecorder.recordEvent(type, payload);
}
else if (type == LOK_CALLBACK_INVALIDATE_VIEW_CURSOR ||
type == LOK_CALLBACK_TEXT_VIEW_SELECTION ||
type == LOK_CALLBACK_CELL_VIEW_CURSOR ||
type == LOK_CALLBACK_GRAPHIC_VIEW_SELECTION ||
type == LOK_CALLBACK_VIEW_CURSOR_VISIBLE ||
type == LOK_CALLBACK_VIEW_LOCK)
{
Poco::JSON::Parser parser;
Poco::JSON::Object::Ptr root = parser.parse(payload).extract<Poco::JSON::Object::Ptr>();
int viewId = root->getValue<int>("viewId");
_stateRecorder.recordViewEvent(viewId, type, payload);
}
else if (type == LOK_CALLBACK_STATE_CHANGED)
{
std::string name;
std::string value;
if (LOOLProtocol::parseNameValuePair(payload, name, value, '='))
{
_stateRecorder.recordState(name, payload);
}
}
else if (type == LOK_CALLBACK_REDLINE_TABLE_SIZE_CHANGED ||
type == LOK_CALLBACK_REDLINE_TABLE_ENTRY_MODIFIED ||
type == LOK_CALLBACK_COMMENT)
{
_stateRecorder.recordEventSequence(type, payload);
}
}
void ChildSession::updateSpeed()
{
std::chrono::steady_clock::time_point now(std::chrono::steady_clock::now());
while (_cursorInvalidatedEvent.size() != 0 &&
std::chrono::duration_cast<std::chrono::milliseconds>(now - _cursorInvalidatedEvent.front()).count() > _eventStorageIntervalMs)
{
_cursorInvalidatedEvent.pop();
}
_cursorInvalidatedEvent.push(now);
_docManager->updateEditorSpeeds(_viewId, _cursorInvalidatedEvent.size());
}
int ChildSession::getSpeed()
{
std::chrono::steady_clock::time_point now(std::chrono::steady_clock::now());
while (_cursorInvalidatedEvent.size() > 0 &&
std::chrono::duration_cast<std::chrono::milliseconds>(now - _cursorInvalidatedEvent.front()).count() > _eventStorageIntervalMs)
{
_cursorInvalidatedEvent.pop();
}
return _cursorInvalidatedEvent.size();
}
void ChildSession::loKitCallback(const int type, const std::string& payload)
{
const char* const typeName = lokCallbackTypeToString(type);
LOG_TRC("ChildSession::loKitCallback [" << getName() << "]: " <<
typeName << " [" << payload << "].");
if (UnitKit::get().filterLoKitCallback(type, payload))
return;
if (isCloseFrame())
{
LOG_TRC("Skipping callback [" << typeName << "] on closing session " << getName());
return;
}
else if (isDisconnected())
{
LOG_TRC("Skipping callback [" << typeName << "] on disconnected session " << getName());
return;
}
else if (!isActive())
{
rememberEventsForInactiveUser(type, payload);
// Pass save notifications through.
if (type != LOK_CALLBACK_UNO_COMMAND_RESULT || payload.find(".uno:Save") == std::string::npos)
{
LOG_TRC("Skipping callback [" << typeName << "] on inactive session " << getName());
return;
}
}
switch (static_cast<LibreOfficeKitCallbackType>(type))
{
case LOK_CALLBACK_INVALIDATE_TILES:
{
StringVector tokens(LOOLProtocol::tokenize(payload, ','));
if (tokens.size() == 5)
{
int part, x, y, width, height;
try
{
x = std::stoi(tokens[0]);
y = std::stoi(tokens[1]);
width = std::stoi(tokens[2]);
height = std::stoi(tokens[3]);
part = (_docType != "text" ? std::stoi(tokens[4]) : 0); // Writer renders everything as part 0.
}
catch (const std::out_of_range&)
{
// We might get INT_MAX +/- some delta that
// can overflow signed int and we end up here.
x = 0;
y = 0;
width = INT_MAX;
height = INT_MAX;
part = 0;
}
sendTextFrame("invalidatetiles:"
" part=" + std::to_string(part) +
" x=" + std::to_string(x) +
" y=" + std::to_string(y) +
" width=" + std::to_string(width) +
" height=" + std::to_string(height));
}
else if (tokens.size() == 2 && tokens.equals(0, "EMPTY"))
{
const std::string part = (_docType != "text" ? tokens[1].c_str() : "0"); // Writer renders everything as part 0.
sendTextFrame("invalidatetiles: EMPTY, " + part);
}
else
{
sendTextFrame("invalidatetiles: " + payload);
}
}
break;
case LOK_CALLBACK_INVALIDATE_VISIBLE_CURSOR:
updateSpeed();
sendTextFrame("invalidatecursor: " + payload);
break;
case LOK_CALLBACK_TEXT_SELECTION:
sendTextFrame("textselection: " + payload);
break;
case LOK_CALLBACK_TEXT_SELECTION_START:
sendTextFrame("textselectionstart: " + payload);
break;
case LOK_CALLBACK_TEXT_SELECTION_END:
sendTextFrame("textselectionend: " + payload);
break;
case LOK_CALLBACK_CURSOR_VISIBLE:
sendTextFrame("cursorvisible: " + payload);
break;
case LOK_CALLBACK_GRAPHIC_SELECTION:
sendTextFrame("graphicselection: " + payload);
break;
case LOK_CALLBACK_CELL_CURSOR:
sendTextFrame("cellcursor: " + payload);
break;
case LOK_CALLBACK_CELL_FORMULA:
sendTextFrame("cellformula: " + payload);
break;
case LOK_CALLBACK_MOUSE_POINTER:
sendTextFrame("mousepointer: " + payload);
break;
case LOK_CALLBACK_HYPERLINK_CLICKED:
sendTextFrame("hyperlinkclicked: " + payload);
break;
case LOK_CALLBACK_STATE_CHANGED:
sendTextFrame("statechanged: " + payload);
break;
case LOK_CALLBACK_SEARCH_NOT_FOUND:
sendTextFrame("searchnotfound: " + payload);
break;
case LOK_CALLBACK_SEARCH_RESULT_SELECTION:
sendTextFrame("searchresultselection: " + payload);
break;
case LOK_CALLBACK_DOCUMENT_SIZE_CHANGED:
getStatus("", 0);
break;
case LOK_CALLBACK_SET_PART:
sendTextFrame("setpart: " + payload);
break;
case LOK_CALLBACK_UNO_COMMAND_RESULT:
sendTextFrame("unocommandresult: " + payload);
#ifdef IOS
{
// After the document has been saved (into the temporary copy that we set up in
// -[CODocument loadFromContents:ofType:error:]), save it also using the system API so
// that file provider extensions notice.
Parser parser;
Poco::Dynamic::Var var = parser.parse(payload);
Object::Ptr object = var.extract<Object::Ptr>();
auto commandName = object->get("commandName");
auto success = object->get("success");
if (!commandName.isEmpty() && commandName.toString() == ".uno:Save" && !success.isEmpty() && success.toString() == "true")
{
CODocument *document = [[DocumentViewController singleton] document];
[document saveToURL:[document fileURL]
forSaveOperation:UIDocumentSaveForOverwriting
completionHandler:^(BOOL success) {
LOG_TRC("ChildSession::loKitCallback() save completion handler gets " << (success?"YES":"NO"));
}];
}
}
#endif
break;
case LOK_CALLBACK_ERROR:
{
LOG_ERR("CALLBACK_ERROR: " << payload);
Parser parser;
Poco::Dynamic::Var var = parser.parse(payload);
Object::Ptr object = var.extract<Object::Ptr>();
sendTextFrameAndLogError("error: cmd=" + object->get("cmd").toString() +
" kind=" + object->get("kind").toString() + " code=" + object->get("code").toString());
}
break;
case LOK_CALLBACK_CONTEXT_MENU:
sendTextFrame("contextmenu: " + payload);
break;
case LOK_CALLBACK_STATUS_INDICATOR_START:
sendTextFrame("statusindicatorstart:");
break;
case LOK_CALLBACK_STATUS_INDICATOR_SET_VALUE:
sendTextFrame("statusindicatorsetvalue: " + payload);
break;
case LOK_CALLBACK_STATUS_INDICATOR_FINISH:
sendTextFrame("statusindicatorfinish:");
break;
case LOK_CALLBACK_INVALIDATE_VIEW_CURSOR:
sendTextFrame("invalidateviewcursor: " + payload);
break;
case LOK_CALLBACK_TEXT_VIEW_SELECTION:
sendTextFrame("textviewselection: " + payload);
break;
case LOK_CALLBACK_CELL_VIEW_CURSOR:
sendTextFrame("cellviewcursor: " + payload);
break;
case LOK_CALLBACK_GRAPHIC_VIEW_SELECTION:
sendTextFrame("graphicviewselection: " + payload);
break;
case LOK_CALLBACK_VIEW_CURSOR_VISIBLE:
sendTextFrame("viewcursorvisible: " + payload);
break;
case LOK_CALLBACK_VIEW_LOCK:
sendTextFrame("viewlock: " + payload);
break;
case LOK_CALLBACK_REDLINE_TABLE_SIZE_CHANGED:
sendTextFrame("redlinetablechanged: " + payload);
break;
case LOK_CALLBACK_REDLINE_TABLE_ENTRY_MODIFIED:
sendTextFrame("redlinetablemodified: " + payload);
break;
case LOK_CALLBACK_COMMENT:
sendTextFrame("comment: " + payload);
break;
case LOK_CALLBACK_INVALIDATE_HEADER:
sendTextFrame("invalidateheader: " + payload);
break;
case LOK_CALLBACK_CELL_ADDRESS:
sendTextFrame("celladdress: " + payload);
break;
case LOK_CALLBACK_RULER_UPDATE:
sendTextFrame("rulerupdate: " + payload);
break;
case LOK_CALLBACK_WINDOW:
sendTextFrame("window: " + payload);
break;
case LOK_CALLBACK_VALIDITY_LIST_BUTTON:
sendTextFrame("validitylistbutton: " + payload);
break;
case LOK_CALLBACK_CLIPBOARD_CHANGED:
{
std::string selection;
if (_copyToClipboard)
{
_copyToClipboard = false;
selection = getTextSelectionInternal("");
}
sendTextFrame("clipboardchanged: " + selection);
break;
}
case LOK_CALLBACK_CONTEXT_CHANGED:
sendTextFrame("context: " + payload);
break;
case LOK_CALLBACK_SIGNATURE_STATUS:
sendTextFrame("signaturestatus: " + payload);
break;
case LOK_CALLBACK_PROFILE_FRAME:
case LOK_CALLBACK_DOCUMENT_PASSWORD:
case LOK_CALLBACK_DOCUMENT_PASSWORD_TO_MODIFY:
// these are not handled here.
break;
case LOK_CALLBACK_CELL_SELECTION_AREA:
sendTextFrame("cellselectionarea: " + payload);
break;
case LOK_CALLBACK_CELL_AUTO_FILL_AREA:
sendTextFrame("cellautofillarea: " + payload);
break;
case LOK_CALLBACK_TABLE_SELECTED:
sendTextFrame("tableselected: " + payload);
break;
case LOK_CALLBACK_REFERENCE_MARKS:
sendTextFrame("referencemarks: " + payload);
break;
case LOK_CALLBACK_JSDIALOG:
sendTextFrame("jsdialog: " + payload);
break;
case LOK_CALLBACK_CALC_FUNCTION_LIST:
sendTextFrame("calcfunctionlist: " + payload);
break;
#if !ENABLE_DEBUG
// we want a compilation-time failure in the debug builds; but ERR in the
// log in the release ones
default:
LOG_ERR("Unknown callback event (" << lokCallbackTypeToString(type) << "): " << payload);
#endif
}
}
/* vim:set shiftwidth=4 softtabstop=4 expandtab: */