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MuditaOS/module-apps/application-call/ApplicationCall.cpp
Alek-Mudita 1446a4bff8 Egd 2539 duration class (#258) 
* [GED-2539] Timestamp : changed buffer to heap one

[EGD-2539] implemented 1st version of Duration class

[EGD-2539] added autoformating of the output

[EGD-2539] clean up

[EGD-2539] used duration in call and calllog
added Duration operators

[EGD-2539] add better duartions to calllog.db

[EGD-2539] format file

* [EGD-2539] fixes after rebase

* [EGD-2539] displayed format follows design guidline

* [EGD-2539] added UT for duration class and necessary FW fixes

* [EGD-2539] fixed tim_conversion UT

* [EGD-2539] PR fixes

* [EGD-2539] added move constructor to UTF8 class

* [EGD-2539] added checking for nullptr in fillContactData

* [EGD-2539] PR fixes
2020-03-25 17:14:00 +01:00

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/*
* @file ApplicationCall.cpp
* @author Robert Borzecki (robert.borzecki@mudita.com)
* @date 1 lip 2019
* @brief
* @copyright Copyright (C) 2019 mudita.com
* @details
*/
#include "ApplicationCall.hpp"
#include "Application.hpp"
#include "MessageType.hpp"
#include "data/CallSwitchData.hpp"
#include "log/log.hpp"
#include "time/time_conversion.hpp"
#include "windows/CallMainWindow.hpp"
#include "windows/CallWindow.hpp"
#include "windows/EmergencyCallWindow.hpp"
#include "windows/EnterNumberWindow.hpp"
#include <ticks.hpp>
#include "service-cellular/ServiceCellular.hpp"
#include "service-cellular/api/CellularServiceAPI.hpp"
#include "service-audio/api/AudioServiceAPI.hpp"
#include "service-appmgr/ApplicationManager.hpp"
#include <cassert>
namespace app
{
ApplicationCall::ApplicationCall(std::string name, std::string parent, bool startBackgound)
: Application(name, parent, startBackgound, 4096 + 2048),
timerCall(CreateAppTimer(1000, true, [=]() { timerCallCallback(); }))
{}
// number of seconds after end call to switch back to previous application
const inline utils::time::Duration delayToSwitchToPreviousApp = 3;
void ApplicationCall::timerCallCallback()
{
callDuration = utils::time::Timestamp() - callStartTime;
auto it = windows.find(window::name_call);
if (getCurrentWindow() == it->second) {
auto callWindow = dynamic_cast<gui::CallWindow *>(getCurrentWindow());
if (callWindow && callWindow->getState() == gui::CallWindow::State::CALL_IN_PROGRESS) {
callWindow->updateDuration(callDuration);
refreshWindow(gui::RefreshModes::GUI_REFRESH_FAST);
}
}
// delayed switch to previous application
if (callDelayedStopTime != 0 && utils::time::Timestamp() >= callDelayedStopTime) {
stopCallTimer();
sapm::ApplicationManager::messageSwitchPreviousApplication(this);
}
}
void ApplicationCall::CallAbortHandler()
{
gui::CallWindow *callWindow = dynamic_cast<gui::CallWindow *>(windows.find(window::name_call)->second);
assert(callWindow != nullptr);
LOG_INFO("---------------------------------CallAborted");
AudioServiceAPI::Stop(this);
callDelayedStopTime = utils::time::Timestamp() + delayToSwitchToPreviousApp;
callWindow->setState(gui::CallWindow::State::CALL_ENDED);
refreshWindow(gui::RefreshModes::GUI_REFRESH_DEEP);
}
void ApplicationCall::CallActiveHandler()
{
gui::CallWindow *callWindow = dynamic_cast<gui::CallWindow *>(windows.find(window::name_call)->second);
assert(callWindow != nullptr);
runCallTimer();
LOG_INFO("---------------------------------CallActive");
callWindow->setState(gui::CallWindow::State::CALL_IN_PROGRESS);
refreshWindow(gui::RefreshModes::GUI_REFRESH_DEEP);
}
void ApplicationCall::IncomingCallHandler(const CellularNotificationMessage *const msg)
{
gui::CallWindow *callWindow = dynamic_cast<gui::CallWindow *>(windows.find(window::name_call)->second);
assert(callWindow != nullptr);
LOG_INFO("---------------------------------IncomingCall");
if (callWindow->getState() == gui::CallWindow::State::INCOMING_CALL) {
LOG_INFO("ignoring call incoming");
}
else {
AudioServiceAPI::RoutingStart(this);
runCallTimer();
std::unique_ptr<gui::SwitchData> data = std::make_unique<app::IncommingCallData>(msg->data);
// send to itself message to switch (run) call application
callWindow->setState(gui::CallWindow::State::INCOMING_CALL);
if (getState() == State::ACTIVE_FORGROUND) {
LOG_INFO("++++++++++++WINDOW SWITCH");
switchWindow(window::name_call, std::move(data));
}
else {
LOG_INFO("++++++++++++APP SWITCH");
sapm::ApplicationManager::messageSwitchApplication(this, name_call, window::name_call, std::move(data));
}
}
}
void ApplicationCall::RingingHandler(const CellularNotificationMessage *const msg)
{
gui::CallWindow *callWindow = dynamic_cast<gui::CallWindow *>(windows.find(window::name_call)->second);
assert(callWindow != nullptr);
LOG_INFO("---------------------------------Ringing");
AudioServiceAPI::RoutingStart(this);
runCallTimer();
std::unique_ptr<gui::SwitchData> data = std::make_unique<app::ExecuteCallData>(msg->data);
callWindow->setState(gui::CallWindow::State::OUTGOING_CALL);
if (getState() == State::ACTIVE_FORGROUND) {
switchWindow(window::name_call, std::move(data));
}
}
// Invoked upon receiving data message
sys::Message_t ApplicationCall::DataReceivedHandler(sys::DataMessage *msgl, sys::ResponseMessage *resp)
{
auto retMsg = Application::DataReceivedHandler(msgl);
// if message was handled by application's template there is no need to process further.
if ((reinterpret_cast<sys::ResponseMessage *>(retMsg.get())->retCode == sys::ReturnCodes::Success)) {
return retMsg;
}
if (msgl->messageType == MessageType::CellularNotification) {
CellularNotificationMessage *msg = dynamic_cast<CellularNotificationMessage *>(msgl);
assert(msg != nullptr);
switch (msg->type) {
case CellularNotificationMessage::Type::CallAborted: {
CallAbortHandler();
} break;
case CellularNotificationMessage::Type::CallActive: {
CallActiveHandler();
} break;
case CellularNotificationMessage::Type::IncomingCall: {
IncomingCallHandler(msg);
} break;
case CellularNotificationMessage::Type::Ringing: {
RingingHandler(msg);
} break;
default:
break;
}
return std::make_shared<sys::ResponseMessage>();
}
if (resp != nullptr) {
switch (resp->responseTo) {
case MessageType::CellularHangupCall: {
if (resp->retCode == sys::ReturnCodes::Success) {
CallAbortHandler();
}
break;
}
default:
break;
}
return std::make_shared<sys::ResponseMessage>();
}
return std::make_shared<sys::ResponseMessage>(sys::ReturnCodes::Unresolved);
}
// Invoked during initialization
sys::ReturnCodes ApplicationCall::InitHandler()
{
auto ret = Application::InitHandler();
if (ret != sys::ReturnCodes::Success)
return ret;
createUserInterface();
setActiveWindow("MainWindow");
return ret;
}
sys::ReturnCodes ApplicationCall::DeinitHandler()
{
return sys::ReturnCodes::Success;
}
void ApplicationCall::createUserInterface()
{
gui::AppWindow *window = nullptr;
window = new gui::CallMainWindow(this);
windows.insert(std::pair<std::string, gui::AppWindow *>(window->getName(), window));
window = new gui::EnterNumberWindow(this);
windows.insert(std::pair<std::string, gui::AppWindow *>(window->getName(), window));
window = new gui::CallWindow(this);
windows.insert(std::pair<std::string, gui::AppWindow *>(window->getName(), window));
window = new gui::EmergencyCallWindow(this);
windows.insert(std::pair<std::string, gui::AppWindow *>(window->getName(), window));
}
void ApplicationCall::setDisplayedNumber(std::string num)
{
phoneNumber = num;
}
const std::string &ApplicationCall::getDisplayedNumber()
{
return phoneNumber;
}
void ApplicationCall::runCallTimer()
{
callStartTime = utils::time::Timestamp();
callDuration = 0;
callDelayedStopTime = 0;
timerCall.restart();
}
void ApplicationCall::stopCallTimer()
{
callStartTime = 0;
callDuration = 0;
callDelayedStopTime = 0;
timerCall.stop();
}
void ApplicationCall::destroyUserInterface()
{}
} // namespace app
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