fwrite(audio_start + AUDIO_HEADER_SIZE, 1, audio_len - AUDIO_HEADER_SIZE, audiofp);
}
-void BMUSBCapture::dequeue_thread()
+void BMUSBCapture::dequeue_thread_func()
{
- for ( ;; ) {
+ if (has_dequeue_callbacks) {
+ dequeue_init_callback();
+ }
+ while (!dequeue_thread_should_quit) {
unique_lock<mutex> lock(queue_lock);
- queues_not_empty.wait(lock, [this]{ return !pending_video_frames.empty() && !pending_audio_frames.empty(); });
+ queues_not_empty.wait(lock, [this]{ return dequeue_thread_should_quit || !pending_video_frames.empty() && !pending_audio_frames.empty(); });
uint16_t video_timecode = pending_video_frames.front().timecode;
uint16_t audio_timecode = pending_audio_frames.front().timecode;
audio_frame.frame, AUDIO_HEADER_SIZE, audio_frame.format);
}
}
+ if (has_dequeue_callbacks) {
+ dequeue_cleanup_callback();
+ }
}
void BMUSBCapture::start_new_frame(const uint8_t *start)
if (audio_frame_allocator == nullptr) {
set_audio_frame_allocator(new MallocFrameAllocator(65536)); // FIXME: leak.
}
- thread(&BMUSBCapture::dequeue_thread, this).detach();
+ dequeue_thread_should_quit = false;
+ dequeue_thread = thread(&BMUSBCapture::dequeue_thread_func, this);
int rc;
struct libusb_transfer *xfr;
#endif
}
+void BMUSBCapture::stop_dequeue_thread()
+{
+ dequeue_thread_should_quit = true;
+ queues_not_empty.notify_all();
+ dequeue_thread.join();
+}
+
void BMUSBCapture::start_bm_thread()
{
should_quit = false;
frame_callback = callback;
}
+ // Needs to be run before configure_card().
+ void set_dequeue_thread_callbacks(std::function<void()> init, std::function<void()> cleanup)
+ {
+ dequeue_init_callback = init;
+ dequeue_cleanup_callback = cleanup;
+ has_dequeue_callbacks = true;
+ }
+
void configure_card();
void start_bm_capture();
+ void stop_dequeue_thread();
static void start_bm_thread();
static void stop_bm_thread();
void start_new_frame(const uint8_t *start);
void queue_frame(uint16_t format, uint16_t timecode, FrameAllocator::Frame frame, std::deque<QueuedFrame> *q);
- void dequeue_thread();
+ void dequeue_thread_func();
static void usb_thread_func();
static void cb_xfr(struct libusb_transfer *xfr);
FrameAllocator *audio_frame_allocator = nullptr;
frame_callback_t frame_callback = nullptr;
+ std::thread dequeue_thread;
+ std::atomic<bool> dequeue_thread_should_quit;
+ bool has_dequeue_callbacks = false;
+ std::function<void()> dequeue_init_callback = nullptr;
+ std::function<void()> dequeue_cleanup_callback = nullptr;
+
int current_register = 0;
static constexpr int NUM_BMUSB_REGISTERS = 60;
h264_encoder.reset(new H264Encoder(h264_encoder_surface, WIDTH, HEIGHT, "test.mp4"));
- printf("Configuring first card...\n");
- cards[0].usb = new BMUSBCapture(0x1edb, 0xbd3b); // 0xbd4f
- cards[0].usb->set_frame_callback(std::bind(&Mixer::bm_frame, this, 0, _1, _2, _3, _4, _5, _6, _7));
- cards[0].frame_allocator.reset(new PBOFrameAllocator(1280 * 750 * 2 + 44, 1280, 720));
- cards[0].usb->set_video_frame_allocator(cards[0].frame_allocator.get());
- cards[0].usb->configure_card();
- cards[0].surface = create_surface(format);
-#if NUM_CARDS == 2
- cards[1].surface = create_surface(format);
-#endif
-
- if (NUM_CARDS == 2) {
- printf("Configuring second card...\n");
- cards[1].usb = new BMUSBCapture(0x1edb, 0xbd4f);
- cards[1].usb->set_frame_callback(std::bind(&Mixer::bm_frame, this, 1, _1, _2, _3, _4, _5, _6, _7));
- cards[1].frame_allocator.reset(new PBOFrameAllocator(1280 * 750 * 2 + 44, 1280, 720));
- cards[1].usb->set_video_frame_allocator(cards[1].frame_allocator.get());
- cards[1].usb->configure_card();
+ for (int card_index = 0; card_index < NUM_CARDS; ++card_index) {
+ printf("Configuring card %d...\n", card_index);
+ CaptureCard *card = &cards[card_index];
+ card->usb = new BMUSBCapture(0x1edb, card_index == 0 ? 0xbd3b : 0xbd4f);
+ card->usb->set_frame_callback(std::bind(&Mixer::bm_frame, this, card_index, _1, _2, _3, _4, _5, _6, _7));
+ card->frame_allocator.reset(new PBOFrameAllocator(1280 * 750 * 2 + 44, 1280, 720));
+ card->usb->set_video_frame_allocator(card->frame_allocator.get());
+ card->surface = create_surface(format);
+ card->usb->set_dequeue_thread_callbacks(
+ [card]{
+ eglBindAPI(EGL_OPENGL_API);
+ card->context = create_context();
+ if (!make_current(card->context, card->surface)) {
+ printf("failed to create bmusb context\n");
+ exit(1);
+ }
+ printf("inited!\n");
+ },
+ [this]{
+ resource_pool->clean_context();
+ });
+ card->usb->configure_card();
}
BMUSBCapture::start_bm_thread();
{
resource_pool->release_glsl_program(cbcr_program_num);
BMUSBCapture::stop_bm_thread();
+
+ for (int card_index = 0; card_index < NUM_CARDS; ++card_index) {
+ cards[card_index].new_data_ready = false; // Unblock thread.
+ cards[card_index].new_data_ready_changed.notify_all();
+ cards[card_index].usb->stop_dequeue_thread();
+ }
}
void Mixer::bm_frame(int card_index, uint16_t timecode,
FrameAllocator::Frame audio_frame, size_t audio_offset, uint16_t audio_format)
{
CaptureCard *card = &cards[card_index];
- if (!card->thread_initialized) {
- printf("initializing context for bmusb thread %d\n", card_index);
- eglBindAPI(EGL_OPENGL_API);
- card->context = create_context();
- if (!make_current(card->context, card->surface)) {
- printf("failed to create bmusb context\n");
- exit(1);
- }
- card->thread_initialized = true;
- }
if (video_frame.len - video_offset != 1280 * 750 * 2) {
printf("dropping frame with wrong length (%ld)\n", video_frame.len - video_offset);
}
check_error();
}
+
+ resource_pool->clean_context();
}
void Mixer::subsample_chroma(GLuint src_tex, GLuint dst_tex)