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openpilot is an open source driver assistance system. openpilot performs the functions of Automated Lane Centering and Adaptive Cruise Control for over 200 supported car makes and models.
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openpilot_comma/tools/cabana/streams/replaystream.cc

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#include "tools/cabana/streams/replaystream.h"
#include <QLabel>
#include <QFileDialog>
#include <QGridLayout>
#include <QMessageBox>
#include <QPushButton>
#include "common/timing.h"
#include "tools/cabana/streams/routes.h"
ReplayStream::ReplayStream(QObject *parent) : AbstractStream(parent) {
unsetenv("ZMQ");
setenv("COMMA_CACHE", "/tmp/comma_download_cache", 1);
// TODO: Remove when OpenpilotPrefix supports ZMQ
#ifndef __APPLE__
op_prefix = std::make_unique<OpenpilotPrefix>();
#endif
QObject::connect(&settings, &Settings::changed, this, [this]() {
if (replay) replay->setSegmentCacheLimit(settings.max_cached_minutes);
});
}
static bool event_filter(const Event *e, void *opaque) {
return ((ReplayStream *)opaque)->eventFilter(e);
}
void ReplayStream::mergeSegments() {
for (auto &[n, seg] : replay->segments()) {
if (seg && seg->isLoaded() && !processed_segments.count(n)) {
processed_segments.insert(n);
std::vector<const CanEvent *> new_events;
new_events.reserve(seg->log->events.size());
for (const Event &e : seg->log->events) {
if (e.which == cereal::Event::Which::CAN) {
capnp::FlatArrayMessageReader reader(e.data);
auto event = reader.getRoot<cereal::Event>();
for (const auto &c : event.getCan()) {
new_events.push_back(newEvent(e.mono_time, c));
}
}
}
mergeEvents(new_events);
}
}
}
bool ReplayStream::loadRoute(const QString &route, const QString &data_dir, uint32_t replay_flags) {
replay.reset(new Replay(route.toStdString(), {"can", "roadEncodeIdx", "driverEncodeIdx", "wideRoadEncodeIdx", "carParams"},
{}, nullptr, replay_flags, data_dir.toStdString(), this));
replay->setSegmentCacheLimit(settings.max_cached_minutes);
replay->installEventFilter(event_filter, this);
QObject::connect(replay.get(), &Replay::seeking, this, &AbstractStream::seeking);
QObject::connect(replay.get(), &Replay::seekedTo, this, &AbstractStream::seekedTo);
QObject::connect(replay.get(), &Replay::segmentsMerged, this, &ReplayStream::mergeSegments);
bool success = replay->load();
if (!success) {
if (replay->lastRouteError() == RouteLoadError::AccessDenied) {
auto auth_content = util::read_file(util::getenv("HOME") + "/.comma/auth.json");
QString message;
if (auth_content.empty()) {
message = "Authentication Required. Please run the following command to authenticate:\n\n"
"python3 tools/lib/auth.py\n\n"
"This will grant access to routes from your comma account.";
} else {
message = tr("Access Denied. You do not have permission to access route:\n\n%1\n\n"
"This is likely a private route.").arg(route);
}
QMessageBox::warning(nullptr, tr("Access Denied"), message);
} else if (replay->lastRouteError() == RouteLoadError::NetworkError) {
QMessageBox::warning(nullptr, tr("Network Error"),
tr("Unable to load the route:\n\n %1.\n\nPlease check your network connection and try again.").arg(route));
} else if (replay->lastRouteError() == RouteLoadError::FileNotFound) {
QMessageBox::warning(nullptr, tr("Route Not Found"),
tr("The specified route could not be found:\n\n %1.\n\nPlease check the route name and try again.").arg(route));
} else {
QMessageBox::warning(nullptr, tr("Route Load Failed"), tr("Failed to load route: '%1'").arg(route));
}
}
return success;
}
bool ReplayStream::eventFilter(const Event *event) {
static double prev_update_ts = 0;
if (event->which == cereal::Event::Which::CAN) {
double current_sec = toSeconds(event->mono_time);
capnp::FlatArrayMessageReader reader(event->data);
auto e = reader.getRoot<cereal::Event>();
for (const auto &c : e.getCan()) {
MessageId id = {.source = c.getSrc(), .address = c.getAddress()};
const auto dat = c.getDat();
updateEvent(id, current_sec, (const uint8_t*)dat.begin(), dat.size());
}
}
double ts = millis_since_boot();
if ((ts - prev_update_ts) > (1000.0 / settings.fps)) {
emit privateUpdateLastMsgsSignal();
prev_update_ts = ts;
}
return true;
}
void ReplayStream::pause(bool pause) {
replay->pause(pause);
emit(pause ? paused() : resume());
}
// OpenReplayWidget
OpenReplayWidget::OpenReplayWidget(QWidget *parent) : AbstractOpenStreamWidget(parent) {
QGridLayout *grid_layout = new QGridLayout(this);
grid_layout->addWidget(new QLabel(tr("Route")), 0, 0);
grid_layout->addWidget(route_edit = new QLineEdit(this), 0, 1);
route_edit->setPlaceholderText(tr("Enter route name or browse for local/remote route"));
auto browse_remote_btn = new QPushButton(tr("Remote route..."), this);
grid_layout->addWidget(browse_remote_btn, 0, 2);
auto browse_local_btn = new QPushButton(tr("Local route..."), this);
grid_layout->addWidget(browse_local_btn, 0, 3);
QHBoxLayout *camera_layout = new QHBoxLayout();
for (auto c : {tr("Road camera"), tr("Driver camera"), tr("Wide road camera")})
camera_layout->addWidget(cameras.emplace_back(new QCheckBox(c, this)));
cameras[0]->setChecked(true);
camera_layout->addStretch(1);
grid_layout->addItem(camera_layout, 1, 1);
setMinimumWidth(550);
QObject::connect(browse_local_btn, &QPushButton::clicked, [=]() {
QString dir = QFileDialog::getExistingDirectory(this, tr("Open Local Route"), settings.last_route_dir);
if (!dir.isEmpty()) {
route_edit->setText(dir);
settings.last_route_dir = QFileInfo(dir).absolutePath();
}
});
QObject::connect(browse_remote_btn, &QPushButton::clicked, [this]() {
RoutesDialog route_dlg(this);
if (route_dlg.exec()) {
route_edit->setText(route_dlg.route());
}
});
}
AbstractStream *OpenReplayWidget::open() {
QString route = route_edit->text();
QString data_dir;
if (int idx = route.lastIndexOf('/'); idx != -1 && util::file_exists(route.toStdString())) {
data_dir = route.mid(0, idx + 1);
route = route.mid(idx + 1);
}
bool is_valid_format = Route::parseRoute(route.toStdString()).str.size() > 0;
if (!is_valid_format) {
QMessageBox::warning(nullptr, tr("Warning"), tr("Invalid route format: '%1'").arg(route));
} else {
auto replay_stream = std::make_unique<ReplayStream>(qApp);
uint32_t flags = REPLAY_FLAG_NONE;
if (cameras[1]->isChecked()) flags |= REPLAY_FLAG_DCAM;
if (cameras[2]->isChecked()) flags |= REPLAY_FLAG_ECAM;
if (flags == REPLAY_FLAG_NONE && !cameras[0]->isChecked()) flags = REPLAY_FLAG_NO_VIPC;
if (replay_stream->loadRoute(route, data_dir, flags)) {
return replay_stream.release();
}
}
return nullptr;
}