#include "selfdrive/loggerd/loggerd.h"
#include "selfdrive/loggerd/video_writer.h"
ExitHandler do_exit;
struct LoggerdState {
LoggerState logger = {};
char segment_path[4096];
std::mutex rotate_lock;
std::atomic<int> rotate_segment;
std::atomic<double> last_camera_seen_tms;
std::atomic<int> ready_to_rotate; // count of encoders ready to rotate
int max_waiting = 0;
double last_rotate_tms = 0.; // last rotate time in ms
};
void logger_rotate(LoggerdState *s) {
{
std::unique_lock lk(s->rotate_lock);
int segment = -1;
int err = logger_next(&s->logger, LOG_ROOT.c_str(), s->segment_path, sizeof(s->segment_path), &segment);
assert(err == 0);
s->rotate_segment = segment;
s->ready_to_rotate = 0;
s->last_rotate_tms = millis_since_boot();
}
LOGW((s->logger.part == 0) ? "logging to %s" : "rotated to %s", s->segment_path);
}
void rotate_if_needed(LoggerdState *s) {
if (s->ready_to_rotate == s->max_waiting) {
logger_rotate(s);
}
double tms = millis_since_boot();
if ((tms - s->last_rotate_tms) > SEGMENT_LENGTH * 1000 &&
(tms - s->last_camera_seen_tms) > NO_CAMERA_PATIENCE &&
!LOGGERD_TEST) {
LOGW("no camera packet seen. auto rotating");
logger_rotate(s);
}
}
struct RemoteEncoder {
std::unique_ptr<VideoWriter> writer;
int encoderd_segment_offset;
int current_segment = -1;
std::vector<Message *> q;
int dropped_frames = 0;
bool recording = false;
bool marked_ready_to_rotate = false;
bool seen_first_packet = false;
};
int handle_encoder_msg(LoggerdState *s, Message *msg, std::string &name, struct RemoteEncoder &re) {
const LogCameraInfo &cam_info = (name == "driverEncodeData") ? cameras_logged[1] :
((name == "wideRoadEncodeData") ? cameras_logged[2] :
((name == "qRoadEncodeData") ? qcam_info : cameras_logged[0]));
int bytes_count = 0;
// extract the message
capnp::FlatArrayMessageReader cmsg(kj::ArrayPtr<capnp::word>((capnp::word *)msg->getData(), msg->getSize()));
auto event = cmsg.getRoot<cereal::Event>();
auto edata = (name == "driverEncodeData") ? event.getDriverEncodeData() :
((name == "wideRoadEncodeData") ? event.getWideRoadEncodeData() :
((name == "qRoadEncodeData") ? event.getQRoadEncodeData() : event.getRoadEncodeData()));
auto idx = edata.getIdx();
auto flags = idx.getFlags();
// encoderd can have started long before loggerd
if (!re.seen_first_packet) {
re.seen_first_packet = true;
re.encoderd_segment_offset = idx.getSegmentNum();
LOGD("%s: has encoderd offset %d", name.c_str(), re.encoderd_segment_offset);
}
int offset_segment_num = idx.getSegmentNum() - re.encoderd_segment_offset;
if (offset_segment_num == s->rotate_segment) {
// loggerd is now on the segment that matches this packet
// if this is a new segment, we close any possible old segments, move to the new, and process any queued packets
if (re.current_segment != s->rotate_segment) {
if (re.recording) {
re.writer.reset();
re.recording = false;
}
re.current_segment = s->rotate_segment;
re.marked_ready_to_rotate = false;
// we are in this segment now, process any queued messages before this one
if (!re.q.empty()) {
for (auto &qmsg: re.q) {
bytes_count += handle_encoder_msg(s, qmsg, name, re);
}
re.q.clear();
}
}
// if we aren't recording yet, try to start, since we are in the correct segment
if (!re.recording) {
if (flags & V4L2_BUF_FLAG_KEYFRAME) {
// only create on iframe
if (re.dropped_frames) {
// this should only happen for the first segment, maybe
LOGW("%s: dropped %d non iframe packets before init", name.c_str(), re.dropped_frames);
re.dropped_frames = 0;
}
// if we aren't actually recording, don't create the writer
if (cam_info.record) {
re.writer.reset(new VideoWriter(s->segment_path,
cam_info.filename, idx.getType() != cereal::EncodeIndex::Type::FULL_H_E_V_C,
cam_info.frame_width, cam_info.frame_height, cam_info.fps, idx.getType()));
// write the header
auto header = edata.getHeader();
re.writer->write((uint8_t *)header.begin(), header.size(), idx.getTimestampEof()/1000, true, false);
}
re.recording = true;
} else {
// this is a sad case when we aren't recording, but don't have an iframe
// nothing we can do but drop the frame
delete msg;
++re.dropped_frames;
return bytes_count;
}
}
// we have to be recording if we are here
assert(re.recording);
// if we are actually writing the video file, do so
if (re.writer) {
auto data = edata.getData();
re.writer->write((uint8_t *)data.begin(), data.size(), idx.getTimestampEof()/1000, false, flags & V4L2_BUF_FLAG_KEYFRAME);
}
// put it in log stream as the idx packet
MessageBuilder bmsg;
auto evt = bmsg.initEvent(event.getValid());
evt.setLogMonoTime(event.getLogMonoTime());
if (name == "driverEncodeData") { evt.setDriverEncodeIdx(idx); }
if (name == "wideRoadEncodeData") { evt.setWideRoadEncodeIdx(idx); }
if (name == "qRoadEncodeData") { evt.setQRoadEncodeIdx(idx); }
if (name == "roadEncodeData") { evt.setRoadEncodeIdx(idx); }
auto new_msg = bmsg.toBytes();
logger_log(&s->logger, (uint8_t *)new_msg.begin(), new_msg.size(), true); // always in qlog?
bytes_count += new_msg.size();
// free the message, we used it
delete msg;
} else if (offset_segment_num > s->rotate_segment) {
// encoderd packet has a newer segment, this means encoderd has rolled over
if (!re.marked_ready_to_rotate) {
re.marked_ready_to_rotate = true;
++s->ready_to_rotate;
LOGD("rotate %d -> %d ready %d/%d for %s",
s->rotate_segment.load(), offset_segment_num,
s->ready_to_rotate.load(), s->max_waiting, name.c_str());
}
// queue up all the new segment messages, they go in after the rotate
re.q.push_back(msg);
} else {
LOGE("%s: encoderd packet has a older segment!!! idx.getSegmentNum():%d s->rotate_segment:%d re.encoderd_segment_offset:%d",
name.c_str(), idx.getSegmentNum(), s->rotate_segment.load(), re.encoderd_segment_offset);
// free the message, it's useless. this should never happen
// actually, this can happen if you restart encoderd
re.encoderd_segment_offset = -s->rotate_segment.load();
delete msg;
}
return bytes_count;
}
void loggerd_thread() {
// setup messaging
typedef struct QlogState {
std::string name;
int counter, freq;
bool encoder;
} QlogState;
std::unordered_map<SubSocket*, QlogState> qlog_states;
std::unordered_map<SubSocket*, struct RemoteEncoder> remote_encoders;
std::unique_ptr<Context> ctx(Context::create());
std::unique_ptr<Poller> poller(Poller::create());
// subscribe to all socks
for (const auto& it : services) {
const bool encoder = strcmp(it.name+strlen(it.name)-strlen("EncodeData"), "EncodeData") == 0;
if (!it.should_log && !encoder) continue;
LOGD("logging %s (on port %d)", it.name, it.port);
SubSocket * sock = SubSocket::create(ctx.get(), it.name);
assert(sock != NULL);
poller->registerSocket(sock);
qlog_states[sock] = {
.name = it.name,
.counter = 0,
.freq = it.decimation,
.encoder = encoder,
};
}
LoggerdState s;
// init logger
logger_init(&s.logger, true);
logger_rotate(&s);
Params().put("CurrentRoute", s.logger.route_name);
// init encoders
s.last_camera_seen_tms = millis_since_boot();
for (const auto &cam : cameras_logged) {
if (cam.enable) {
s.max_waiting++;
if (cam.has_qcamera) { s.max_waiting++; }
}
}
uint64_t msg_count = 0, bytes_count = 0;
double start_ts = millis_since_boot();
while (!do_exit) {
// poll for new messages on all sockets
for (auto sock : poller->poll(1000)) {
if (do_exit) break;
// drain socket
int count = 0;
QlogState &qs = qlog_states[sock];
Message *msg = nullptr;
while (!do_exit && (msg = sock->receive(true))) {
const bool in_qlog = qs.freq != -1 && (qs.counter++ % qs.freq == 0);
if (qs.encoder) {
s.last_camera_seen_tms = millis_since_boot();
bytes_count += handle_encoder_msg(&s, msg, qs.name, remote_encoders[sock]);
} else {
logger_log(&s.logger, (uint8_t *)msg->getData(), msg->getSize(), in_qlog);
bytes_count += msg->getSize();
delete msg;
}
rotate_if_needed(&s);
if ((++msg_count % 1000) == 0) {
double seconds = (millis_since_boot() - start_ts) / 1000.0;
LOGD("%lu messages, %.2f msg/sec, %.2f KB/sec", msg_count, msg_count / seconds, bytes_count * 0.001 / seconds);
}
count++;
if (count >= 200) {
LOGD("large volume of '%s' messages", qs.name.c_str());
break;
}
}
}
}
LOGW("closing logger");
logger_close(&s.logger, &do_exit);
if (do_exit.power_failure) {
LOGE("power failure");
sync();
LOGE("sync done");
}
// messaging cleanup
for (auto &[sock, qs] : qlog_states) delete sock;
}
int main(int argc, char** argv) {
if (!Hardware::PC()) {
int ret;
ret = util::set_core_affinity({0, 1, 2, 3});
assert(ret == 0);
// TODO: why does this impact camerad timings?
//ret = util::set_realtime_priority(1);
//assert(ret == 0);
}
loggerd_thread();
return 0;
}