167 lines
4.4 KiB
C++
167 lines
4.4 KiB
C++
#include "camera_frame_stream.h"
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#include <string>
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#include <unistd.h>
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#include <vector>
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#include <cassert>
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#include <string.h>
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#include <signal.h>
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#include <libyuv.h>
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#include <capnp/serialize.h>
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#include "cereal/gen/cpp/log.capnp.h"
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#include "messaging.hpp"
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#include "common/util.h"
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#include "common/timing.h"
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#include "common/swaglog.h"
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#include "buffering.h"
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extern "C" {
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#include <libavcodec/avcodec.h>
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}
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extern volatile sig_atomic_t do_exit;
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#define FRAME_WIDTH 1164
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#define FRAME_HEIGHT 874
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namespace {
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void camera_open(CameraState *s, VisionBuf *camera_bufs, bool rear) {
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assert(camera_bufs);
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s->camera_bufs = camera_bufs;
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}
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void camera_close(CameraState *s) {
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tbuffer_stop(&s->camera_tb);
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}
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void camera_release_buffer(void *cookie, int buf_idx) {
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CameraState *s = static_cast<CameraState *>(cookie);
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}
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void camera_init(CameraState *s, int camera_id, unsigned int fps) {
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assert(camera_id < ARRAYSIZE(cameras_supported));
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s->ci = cameras_supported[camera_id];
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assert(s->ci.frame_width != 0);
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s->frame_size = s->ci.frame_height * s->ci.frame_stride;
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s->fps = fps;
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tbuffer_init2(&s->camera_tb, FRAME_BUF_COUNT, "frame", camera_release_buffer, s);
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}
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void run_frame_stream(DualCameraState *s) {
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int err;
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Context * context = Context::create();
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SubSocket * recorder_sock = SubSocket::create(context, "frame");
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assert(recorder_sock != NULL);
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CameraState *const rear_camera = &s->rear;
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auto *tb = &rear_camera->camera_tb;
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while (!do_exit) {
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Message * msg = recorder_sock->receive();
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auto amsg = kj::heapArray<capnp::word>((msg->getSize() / sizeof(capnp::word)) + 1);
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memcpy(amsg.begin(), msg->getData(), msg->getSize());
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capnp::FlatArrayMessageReader cmsg(amsg);
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cereal::Event::Reader event = cmsg.getRoot<cereal::Event>();
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auto frame = event.getFrame();
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const int buf_idx = tbuffer_select(tb);
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rear_camera->camera_bufs_metadata[buf_idx] = {
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.frame_id = frame.getFrameId(),
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.timestamp_eof = frame.getTimestampEof(),
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.frame_length = static_cast<unsigned>(frame.getFrameLength()),
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.integ_lines = static_cast<unsigned>(frame.getIntegLines()),
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.global_gain = static_cast<unsigned>(frame.getGlobalGain()),
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};
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cl_command_queue q = rear_camera->camera_bufs[buf_idx].copy_q;
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cl_mem yuv_cl = rear_camera->camera_bufs[buf_idx].buf_cl;
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cl_event map_event;
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void *yuv_buf = (void *)clEnqueueMapBuffer(q, yuv_cl, CL_TRUE,
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CL_MAP_WRITE, 0, frame.getImage().size(),
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0, NULL, &map_event, &err);
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assert(err == 0);
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clWaitForEvents(1, &map_event);
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clReleaseEvent(map_event);
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memcpy(yuv_buf, frame.getImage().begin(), frame.getImage().size());
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clEnqueueUnmapMemObject(q, yuv_cl, yuv_buf, 0, NULL, &map_event);
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clWaitForEvents(1, &map_event);
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clReleaseEvent(map_event);
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tbuffer_dispatch(tb, buf_idx);
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delete msg;
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}
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delete recorder_sock;
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delete context;
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}
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} // namespace
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CameraInfo cameras_supported[CAMERA_ID_MAX] = {
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[CAMERA_ID_IMX298] = {
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.frame_width = FRAME_WIDTH,
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.frame_height = FRAME_HEIGHT,
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.frame_stride = FRAME_WIDTH*3,
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.bayer = false,
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.bayer_flip = false,
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},
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[CAMERA_ID_OV8865] = {
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.frame_width = 1632,
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.frame_height = 1224,
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.frame_stride = 2040, // seems right
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.bayer = true,
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.bayer_flip = 3,
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.hdr = false
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},
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};
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void cameras_init(DualCameraState *s) {
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memset(s, 0, sizeof(*s));
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camera_init(&s->rear, CAMERA_ID_IMX298, 20);
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s->rear.transform = (mat3){{
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1.0, 0.0, 0.0,
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0.0, 1.0, 0.0,
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0.0, 0.0, 1.0,
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}};
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camera_init(&s->front, CAMERA_ID_OV8865, 10);
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s->front.transform = (mat3){{
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1.0, 0.0, 0.0,
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0.0, 1.0, 0.0,
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0.0, 0.0, 1.0,
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}};
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}
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void camera_autoexposure(CameraState *s, float grey_frac) {}
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void cameras_open(DualCameraState *s, VisionBuf *camera_bufs_rear,
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VisionBuf *camera_bufs_focus, VisionBuf *camera_bufs_stats,
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VisionBuf *camera_bufs_front) {
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assert(camera_bufs_rear);
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assert(camera_bufs_front);
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int err;
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// LOG("*** open front ***");
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camera_open(&s->front, camera_bufs_front, false);
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// LOG("*** open rear ***");
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camera_open(&s->rear, camera_bufs_rear, true);
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}
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void cameras_close(DualCameraState *s) {
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camera_close(&s->rear);
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}
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void cameras_run(DualCameraState *s) {
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set_thread_name("frame_streaming");
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run_frame_stream(s);
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cameras_close(s);
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}
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