#include "flags.h"
#include "mjpeg_encoder.h"
#include "v210_converter.h"
-#include "va_display_with_cleanup.h"
+#include "shared/va_display.h"
using namespace std;
} // namespace
PBOFrameAllocator::PBOFrameAllocator(bmusb::PixelFormat pixel_format, size_t frame_size, GLuint width, GLuint height, unsigned card_index, MJPEGEncoder *mjpeg_encoder, size_t num_queued_frames, GLenum buffer, GLenum permissions, GLenum map_bits)
- : card_index(card_index), mjpeg_encoder(mjpeg_encoder), pixel_format(pixel_format), buffer(buffer)
+ : card_index(card_index),
+ mjpeg_encoder(mjpeg_encoder),
+ pixel_format(pixel_format),
+ buffer(buffer),
+ frame_size(frame_size),
+ num_queued_frames(num_queued_frames),
+ width(width),
+ height(height),
+ permissions(permissions),
+ map_bits(map_bits)
{
userdata.reset(new Userdata[num_queued_frames]);
for (size_t i = 0; i < num_queued_frames; ++i) {
- init_frame(i, frame_size, width, height, permissions, map_bits);
+ init_frame(i, frame_size, width, height, permissions, map_bits, generation);
}
glBindBuffer(buffer, 0);
check_error();
check_error();
}
-void PBOFrameAllocator::init_frame(size_t frame_idx, size_t frame_size, GLuint width, GLuint height, GLenum permissions, GLenum map_bits)
+void PBOFrameAllocator::init_frame(size_t frame_idx, size_t frame_size, GLuint width, GLuint height, GLenum permissions, GLenum map_bits, int generation)
{
GLuint pbo;
glGenBuffers(1, &pbo);
frame.size = frame_size;
Userdata *ud = &userdata[frame_idx];
frame.userdata = ud;
+ ud->generation = generation;
ud->pbo = pbo;
ud->pixel_format = pixel_format;
ud->data_copy_malloc = new uint8_t[frame_size];
check_error();
glDeleteBuffers(1, &pbo);
check_error();
- switch (pixel_format) {
+ switch (ud->pixel_format) {
case bmusb::PixelFormat_10BitYCbCr:
glDeleteTextures(2, ud->tex_v210);
check_error();
default:
assert(false);
}
+
+ if (ud->generation != generation) {
+ auto it = lingering_generations.find(ud->generation);
+ assert(it != lingering_generations.end());
+ if (--it->second.num_frames_left == 0) {
+ lingering_generations.erase(it); // Deallocates the userdata block.
+ }
+ }
}
//static int sumsum = 0;
vf.len = 0;
vf.overflow = 0;
- if (mjpeg_encoder != nullptr && mjpeg_encoder->using_vaapi() &&
- mjpeg_encoder->get_mjpeg_stream_for_card(card_index) != -1) {
+ if (mjpeg_encoder != nullptr &&
+ mjpeg_encoder->should_encode_mjpeg_for_card(card_index) &&
+ vf.userdata != nullptr) {
Userdata *ud = (Userdata *)vf.userdata;
vf.data_copy = ud->data_copy_malloc;
ud->data_copy_current_src = Userdata::FROM_MALLOC;
Userdata *userdata = (Userdata *)vf.userdata;
- if (mjpeg_encoder != nullptr && mjpeg_encoder->using_vaapi() &&
- mjpeg_encoder->get_mjpeg_stream_for_card(card_index) != -1) {
- VADisplay va_dpy = mjpeg_encoder->va_dpy->va_dpy;
- MJPEGEncoder::VAResources resources = mjpeg_encoder->get_va_resources(width, height);
- MJPEGEncoder::ReleaseVAResources release(mjpeg_encoder, resources);
-
- if (resources.image.pitches[0] == stride) {
- userdata->va_resources = move(resources);
- userdata->va_resources_release = move(release);
-
- VAStatus va_status = vaMapBuffer(va_dpy, resources.image.buf, (void **)&vf.data_copy);
- CHECK_VASTATUS(va_status, "vaMapBuffer");
- vf.data_copy += resources.image.offsets[0];
- userdata->data_copy_current_src = Userdata::FROM_VA_API;
+ if (mjpeg_encoder != nullptr &&
+ mjpeg_encoder->should_encode_mjpeg_for_card(card_index)) {
+ if (mjpeg_encoder->using_vaapi()) {
+ VADisplay va_dpy = mjpeg_encoder->va_dpy->va_dpy;
+ VAResourcePool::VAResources resources = mjpeg_encoder->get_va_pool()->get_va_resources(width, height, VA_FOURCC_UYVY); // Only used by DeckLinkCapture, so always 4:2:2.
+ ReleaseVAResources release(mjpeg_encoder->get_va_pool(), resources);
+
+ if (resources.image.pitches[0] == stride) {
+ userdata->va_resources = move(resources);
+ userdata->va_resources_release = move(release);
+
+ VAStatus va_status = vaMapBuffer(va_dpy, resources.image.buf, (void **)&vf.data_copy);
+ CHECK_VASTATUS(va_status, "vaMapBuffer");
+ vf.data_copy += resources.image.offsets[0];
+ userdata->data_copy_current_src = Userdata::FROM_VA_API;
+ } else {
+ printf("WARNING: Could not copy directly into VA-API MJPEG buffer for %zu x %zu, since producer and consumer disagreed on stride (%zu != %d).\n", width, height, stride, resources.image.pitches[0]);
+ vf.data_copy = userdata->data_copy_malloc;
+ userdata->data_copy_current_src = Userdata::FROM_MALLOC;
+ }
} else {
- printf("WARNING: Could not copy directly into VA-API MJPEG buffer for %zu x %zu, since producer and consumer disagreed on stride (%zu != %d).\n", width, height, stride, resources.image.pitches[0]);
vf.data_copy = userdata->data_copy_malloc;
userdata->data_copy_current_src = Userdata::FROM_MALLOC;
}
{
// In case we never got to upload the frame to MJPEGEncoder.
Userdata *userdata = (Userdata *)frame.userdata;
- MJPEGEncoder::VAResources resources __attribute__((unused)) = move(userdata->va_resources);
- MJPEGEncoder::ReleaseVAResources release = move(userdata->va_resources_release);
+ VAResourcePool::VAResources resources __attribute__((unused)) = move(userdata->va_resources);
+ ReleaseVAResources release = move(userdata->va_resources_release);
if (frame.data_copy != nullptr && userdata->data_copy_current_src == Userdata::FROM_VA_API) {
VADisplay va_dpy = mjpeg_encoder->va_dpy->va_dpy;
}
lock_guard<mutex> lock(freelist_mutex);
- freelist.push(frame);
+ Userdata *userdata = (Userdata *)frame.userdata;
+ if (userdata->generation == generation) {
+ freelist.push(frame);
+ } else {
+ destroy_frame(&frame);
+ }
//--sumsum;
}
+
+void PBOFrameAllocator::reconfigure(bmusb::PixelFormat pixel_format,
+ size_t frame_size,
+ GLuint width, GLuint height,
+ unsigned card_index,
+ MJPEGEncoder *mjpeg_encoder,
+ size_t num_queued_frames,
+ GLenum buffer,
+ GLenum permissions,
+ GLenum map_bits)
+{
+ if (pixel_format == this->pixel_format &&
+ frame_size == this->frame_size &&
+ width == this->width && height == this->height &&
+ card_index == this->card_index &&
+ mjpeg_encoder == this->mjpeg_encoder &&
+ num_queued_frames == this->num_queued_frames &&
+ buffer == this->buffer &&
+ permissions == this->permissions &&
+ map_bits == this->map_bits) {
+ return;
+ }
+
+ lock_guard<mutex> lock(freelist_mutex);
+ lingering_generations[generation] = LingeringGeneration{ move(userdata), this->num_queued_frames };
+ ++generation;
+
+ while (!freelist.empty()) {
+ Frame frame = freelist.front();
+ freelist.pop();
+ destroy_frame(&frame);
+ }
+
+ this->pixel_format = pixel_format;
+ this->frame_size = frame_size;
+ this->width = width;
+ this->height = height;
+ this->card_index = card_index;
+ this->mjpeg_encoder = mjpeg_encoder;
+ this->num_queued_frames = num_queued_frames;
+ this->buffer = buffer;
+ this->permissions = permissions;
+ this->map_bits = map_bits;
+
+ userdata.reset(new Userdata[num_queued_frames]);
+ for (size_t i = 0; i < num_queued_frames; ++i) {
+ init_frame(i, frame_size, width, height, permissions, map_bits, generation);
+ }
+
+ // There may still be frames out with the old configuration
+ // (for instance, living in GLWidget); they will be destroyed
+ // when they come back in release_frame().
+}