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dragonpilot - 基於 openpilot 的開源駕駛輔助系統
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dragonpilot/selfdrive/loggerd/encoderd.cc

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loggerd: switch to v4l encoder try 2 (#24380) * start v4l encoder * v4l encoder starts * start and stop * fill in proper controls * it dequeued a buffer * getting bytes * it made a video * it does make files * getting close * ahh, so that's how dequeue works * qcam works (no remuxing) * remuxing works * we just need to make shutdown and rollover graceful * graceful destruction * switch to polling * should work now * fix pc build * refactors, stop properly * touchups, remove a copy * add v4l encoder to release * inlcude file * move writing to it's own thread * fix minor memory leak * block instead of dropping frames * add counter, fix tests maybe * better debugging and test print * print file path in assert * format string in test * no more oversized qlogs * match qcam * touchups, remove omx encoder * remove omx include files * checked ioctl, better debugging, open by name * unused import * move linux includes to third_party/linux/include * simple encoderd * full packet * encoderd should be complete * lagging print * updates * name dq thread * subset idx * video file writing works * debug * potential bugfix * rotation works * iframe * keep writing support * ci should pass * loggerd, not encoderd * remote encoder code * support remote encoder * cereal to master, add encoderd * header no longer required * put that back there * realtime * lower decoder latency * don't use queue for VisionIpcBufExtra, disable realtime again * assert all written * hmm simpler * only push to to_write if we are writing * assert timestamp is right * use at and remove assert * revert to queue Co-authored-by: Comma Device <device@comma.ai>
4 years ago
#include "selfdrive/loggerd/loggerd.h"
ExitHandler do_exit;
struct EncoderdState {
int max_waiting = 0;
// Sync logic for startup
std::atomic<int> encoders_ready = 0;
std::atomic<uint32_t> start_frame_id = 0;
bool camera_ready[WideRoadCam + 1] = {};
bool camera_synced[WideRoadCam + 1] = {};
};
// Handle initial encoder syncing by waiting for all encoders to reach the same frame id
bool sync_encoders(EncoderdState *s, CameraType cam_type, uint32_t frame_id) {
if (s->camera_synced[cam_type]) return true;
if (s->max_waiting > 1 && s->encoders_ready != s->max_waiting) {
// add a small margin to the start frame id in case one of the encoders already dropped the next frame
update_max_atomic(s->start_frame_id, frame_id + 2);
if (std::exchange(s->camera_ready[cam_type], true) == false) {
++s->encoders_ready;
LOGD("camera %d encoder ready", cam_type);
}
return false;
} else {
if (s->max_waiting == 1) update_max_atomic(s->start_frame_id, frame_id);
bool synced = frame_id >= s->start_frame_id;
s->camera_synced[cam_type] = synced;
if (!synced) LOGD("camera %d waiting for frame %d, cur %d", cam_type, (int)s->start_frame_id, frame_id);
return synced;
}
}
void encoder_thread(EncoderdState *s, const LogCameraInfo &cam_info) {
util::set_thread_name(cam_info.filename);
std::vector<Encoder *> encoders;
VisionIpcClient vipc_client = VisionIpcClient("camerad", cam_info.stream_type, false);
int cur_seg = 0;
while (!do_exit) {
if (!vipc_client.connect(false)) {
util::sleep_for(5);
continue;
}
// init encoders
if (encoders.empty()) {
VisionBuf buf_info = vipc_client.buffers[0];
LOGD("encoder init %dx%d", buf_info.width, buf_info.height);
// main encoder
encoders.push_back(new Encoder(cam_info.filename, cam_info.type, buf_info.width, buf_info.height,
cam_info.fps, cam_info.bitrate, cam_info.is_h265,
buf_info.width, buf_info.height, false));
// qcamera encoder
if (cam_info.has_qcamera) {
encoders.push_back(new Encoder(qcam_info.filename, cam_info.type, buf_info.width, buf_info.height,
qcam_info.fps, qcam_info.bitrate, qcam_info.is_h265,
qcam_info.frame_width, qcam_info.frame_height, false));
}
}
for (int i = 0; i < encoders.size(); ++i) {
encoders[i]->encoder_open(NULL);
}
bool lagging = false;
while (!do_exit) {
VisionIpcBufExtra extra;
VisionBuf* buf = vipc_client.recv(&extra);
if (buf == nullptr) continue;
// detect loop around and drop the frames
if (buf->get_frame_id() != extra.frame_id) {
if (!lagging) {
LOGE("encoder %s lag buffer id: %d extra id: %d", cam_info.filename, buf->get_frame_id(), extra.frame_id);
lagging = true;
}
continue;
}
lagging = false;
if (cam_info.trigger_rotate) {
if (!sync_encoders(s, cam_info.type, extra.frame_id)) {
continue;
}
if (do_exit) break;
}
// encode a frame
for (int i = 0; i < encoders.size(); ++i) {
int out_id = encoders[i]->encode_frame(buf->y, buf->u, buf->v,
buf->width, buf->height, &extra);
if (out_id == -1) {
LOGE("Failed to encode frame. frame_id: %d", extra.frame_id);
}
}
const int frames_per_seg = SEGMENT_LENGTH * MAIN_FPS;
if (cur_seg >= 0 && extra.frame_id >= ((cur_seg + 1) * frames_per_seg) + s->start_frame_id) {
for (auto &e : encoders) {
e->encoder_close();
e->encoder_open(NULL);
}
++cur_seg;
}
}
}
LOG("encoder destroy");
for(auto &e : encoders) {
e->encoder_close();
delete e;
}
}
void encoderd_thread() {
EncoderdState s;
std::vector<std::thread> encoder_threads;
for (const auto &cam : cameras_logged) {
if (cam.enable) {
encoder_threads.push_back(std::thread(encoder_thread, &s, cam));
if (cam.trigger_rotate) s.max_waiting++;
}
}
for (auto &t : encoder_threads) t.join();
}
int main() {
if (Hardware::TICI()) {
int ret;
ret = util::set_realtime_priority(52);
assert(ret == 0);
ret = util::set_core_affinity({7});
assert(ret == 0);
}
encoderd_thread();
return 0;
}