wip

buffering_thread
Add missing error log
2021-07-04 23:48:10 +02:00 · 2021-07-04 17:29:50 +02:00 · 2021-07-04 17:29:50 +02:00 · 2021-07-04 17:29:50 +02:00 · 2021-07-04 17:29:50 +02:00 · 2021-07-04 17:29:50 +02:00
18 changed files with 582 additions and 163 deletions
--- a/app/meson.build
+++ b/app/meson.build
@ -10,6 +10,7 @@ src = [
    'src/event_converter.c',
    'src/file_handler.c',
    'src/fps_counter.c',
    'src/frame_buffer.c',
    'src/input_manager.c',
    'src/opengl.c',
    'src/receiver.c',
--- a/app/src/fps_counter.c
+++ b/app/src/fps_counter.c
@ -1,7 +1,6 @@
 #include "fps_counter.h"
 #include <assert.h>
 #include <SDL2/SDL_timer.h>
 #include "util/log.h"
@ -82,14 +81,12 @@ run_fps_counter(void *data) {
            sc_cond_wait(&counter->state_cond, &counter->mutex);
        }
        while (!counter->interrupted && is_started(counter)) {
-            uint32_t now = SDL_GetTicks();
+            sc_tick now = sc_tick_now();
            check_interval_expired(counter, now);
            assert(counter->next_timestamp > now);
            uint32_t remaining = counter->next_timestamp - now;
            // ignore the reason (timeout or signaled), we just loop anyway
-            sc_cond_timedwait(&counter->state_cond, &counter->mutex, remaining);
+            sc_cond_timedwait(&counter->state_cond, &counter->mutex,
                              counter->next_timestamp);
        }
    }
    sc_mutex_unlock(&counter->mutex);
@ -99,7 +96,7 @@ run_fps_counter(void *data) {
 bool
 fps_counter_start(struct fps_counter *counter) {
    sc_mutex_lock(&counter->mutex);
-    counter->next_timestamp = SDL_GetTicks() + FPS_COUNTER_INTERVAL_MS;
+    counter->next_timestamp = sc_tick_now() + FPS_COUNTER_INTERVAL_MS;
    counter->nr_rendered = 0;
    counter->nr_skipped = 0;
    sc_mutex_unlock(&counter->mutex);
@ -165,7 +162,7 @@ fps_counter_add_rendered_frame(struct fps_counter *counter) {
    }
    sc_mutex_lock(&counter->mutex);
-    uint32_t now = SDL_GetTicks();
+    sc_tick now = sc_tick_now();
    check_interval_expired(counter, now);
    ++counter->nr_rendered;
    sc_mutex_unlock(&counter->mutex);
@ -178,7 +175,7 @@ fps_counter_add_skipped_frame(struct fps_counter *counter) {
    }
    sc_mutex_lock(&counter->mutex);
-    uint32_t now = SDL_GetTicks();
+    sc_tick now = sc_tick_now();
    check_interval_expired(counter, now);
    ++counter->nr_skipped;
    sc_mutex_unlock(&counter->mutex);
--- a/app/src/fps_counter.h
+++ b/app/src/fps_counter.h
@ -24,7 +24,7 @@ struct fps_counter {
    bool interrupted;
    unsigned nr_rendered;
    unsigned nr_skipped;
-    uint32_t next_timestamp;
+    sc_tick next_timestamp;
 };
 bool
--- a/app/src/frame_buffer.c
+++ b/app/src/frame_buffer.c
@ -0,0 +1,88 @@
 #include "frame_buffer.h"
 #include <assert.h>
 #include <libavutil/avutil.h>
 #include <libavformat/avformat.h>
 #include "util/log.h"
 bool
 sc_frame_buffer_init(struct sc_frame_buffer *fb) {
    fb->pending_frame = av_frame_alloc();
    if (!fb->pending_frame) {
        return false;
    }
    fb->tmp_frame = av_frame_alloc();
    if (!fb->tmp_frame) {
        av_frame_free(&fb->pending_frame);
        return false;
    }
    bool ok = sc_mutex_init(&fb->mutex);
    if (!ok) {
        av_frame_free(&fb->pending_frame);
        av_frame_free(&fb->tmp_frame);
        return false;
    }
    // there is initially no frame, so consider it has already been consumed
    fb->pending_frame_consumed = true;
    return true;
 }
 void
 sc_frame_buffer_destroy(struct sc_frame_buffer *fb) {
    sc_mutex_destroy(&fb->mutex);
    av_frame_free(&fb->pending_frame);
    av_frame_free(&fb->tmp_frame);
 }
 static inline void
 swap_frames(AVFrame **lhs, AVFrame **rhs) {
    AVFrame *tmp = *lhs;
    *lhs = *rhs;
    *rhs = tmp;
 }
 bool
 sc_frame_buffer_push(struct sc_frame_buffer *fb, const AVFrame *frame,
                  bool *previous_frame_skipped) {
    sc_mutex_lock(&fb->mutex);
    // Use a temporary frame to preserve pending_frame in case of error.
    // tmp_frame is an empty frame, no need to call av_frame_unref() beforehand.
    int r = av_frame_ref(fb->tmp_frame, frame);
    if (r) {
        LOGE("Could not ref frame: %d", r);
        return false;
    }
    // Now that av_frame_ref() succeeded, we can replace the previous
    // pending_frame
    swap_frames(&fb->pending_frame, &fb->tmp_frame);
    av_frame_unref(fb->tmp_frame);
    if (previous_frame_skipped) {
        *previous_frame_skipped = !fb->pending_frame_consumed;
    }
    fb->pending_frame_consumed = false;
    sc_mutex_unlock(&fb->mutex);
    return true;
 }
 void
 sc_frame_buffer_consume(struct sc_frame_buffer *fb, AVFrame *dst) {
    sc_mutex_lock(&fb->mutex);
    assert(!fb->pending_frame_consumed);
    fb->pending_frame_consumed = true;
    av_frame_move_ref(dst, fb->pending_frame);
    // av_frame_move_ref() resets its source frame, so no need to call
    // av_frame_unref()
    sc_mutex_unlock(&fb->mutex);
 }
--- a/app/src/frame_buffer.h
+++ b/app/src/frame_buffer.h
@ -0,0 +1,44 @@
 #ifndef SC_FRAME_BUFFER_H
 #define SC_FRAME_BUFFER_H
 #include "common.h"
 #include <stdbool.h>
 #include "util/thread.h"
 // forward declarations
 typedef struct AVFrame AVFrame;
 /**
 * A frame buffer holds 1 pending frame, which is the last frame received from
 * the producer (typically, the decoder).
 *
 * If a pending frame has not been consumed when the producer pushes a new
 * frame, then it is lost. The intent is to always provide access to the very
 * last frame to minimize latency.
 */
 struct sc_frame_buffer {
    AVFrame *pending_frame;
    AVFrame *tmp_frame; // To preserve the pending frame on error
    sc_mutex mutex;
    bool pending_frame_consumed;
 };
 bool
 sc_frame_buffer_init(struct sc_frame_buffer *fb);
 void
 sc_frame_buffer_destroy(struct sc_frame_buffer *fb);
 bool
 sc_frame_buffer_push(struct sc_frame_buffer *fb, const AVFrame *frame,
                     bool *skipped);
 void
 sc_frame_buffer_consume(struct sc_frame_buffer *fb, AVFrame *dst);
 #endif
--- a/app/src/recorder.c
+++ b/app/src/recorder.c
@ -57,9 +57,9 @@ record_packet_delete(struct record_packet *rec) {
 static void
 recorder_queue_clear(struct recorder_queue *queue) {
-    while (!queue_is_empty(queue)) {
+    while (!sc_queue_is_empty(queue)) {
        struct record_packet *rec;
-        queue_take(queue, next, &rec);
+        sc_queue_take(queue, next, &rec);
        record_packet_delete(rec);
    }
 }
@ -135,14 +135,14 @@ run_recorder(void *data) {
    for (;;) {
        sc_mutex_lock(&recorder->mutex);
-        while (!recorder->stopped && queue_is_empty(&recorder->queue)) {
+        while (!recorder->stopped && sc_queue_is_empty(&recorder->queue)) {
            sc_cond_wait(&recorder->queue_cond, &recorder->mutex);
        }
        // if stopped is set, continue to process the remaining events (to
        // finish the recording) before actually stopping
-        if (recorder->stopped && queue_is_empty(&recorder->queue)) {
+        if (recorder->stopped && sc_queue_is_empty(&recorder->queue)) {
            sc_mutex_unlock(&recorder->mutex);
            struct record_packet *last = recorder->previous;
            if (last) {
@ -161,7 +161,7 @@ run_recorder(void *data) {
        }
        struct record_packet *rec;
-        queue_take(&recorder->queue, next, &rec);
+        sc_queue_take(&recorder->queue, next, &rec);
        sc_mutex_unlock(&recorder->mutex);
@ -235,7 +235,7 @@ recorder_open(struct recorder *recorder, const AVCodec *input_codec) {
        goto error_mutex_destroy;
    }
-    queue_init(&recorder->queue);
+    sc_queue_init(&recorder->queue);
    recorder->stopped = false;
    recorder->failed = false;
    recorder->header_written = false;
@ -340,7 +340,7 @@ recorder_push(struct recorder *recorder, const AVPacket *packet) {
        return false;
    }
-    queue_push(&recorder->queue, next, rec);
+    sc_queue_push(&recorder->queue, next, rec);
    sc_cond_signal(&recorder->queue_cond);
    sc_mutex_unlock(&recorder->mutex);
--- a/app/src/recorder.h
+++ b/app/src/recorder.h
@ -17,7 +17,7 @@ struct record_packet {
    struct record_packet *next;
 };
-struct recorder_queue QUEUE(struct record_packet);
+struct recorder_queue SC_QUEUE(struct record_packet);
 struct recorder {
    struct sc_packet_sink packet_sink; // packet sink trait
--- a/app/src/screen.c
+++ b/app/src/screen.c
@ -274,14 +274,16 @@ screen_frame_sink_close(struct sc_frame_sink *sink) {
 static bool
 screen_frame_sink_push(struct sc_frame_sink *sink, const AVFrame *frame) {
    struct screen *screen = DOWNCAST(sink);
    return sc_video_buffer_push(&screen->vb, frame);
 }
-    bool previous_frame_skipped;
+static void
-    bool ok = video_buffer_push(&screen->vb, frame, &previous_frame_skipped);
+sc_video_buffer_on_new_frame(struct sc_video_buffer *vb, bool previous_skipped,
-    if (!ok) {
+                             void *userdata) {
-        return false;
+    (void) vb;
-    }
+    struct screen *screen = userdata;
-    if (previous_frame_skipped) {
+    if (previous_skipped) {
        fps_counter_add_skipped_frame(&screen->fps_counter);
        // The EVENT_NEW_FRAME triggered for the previous frame will consume
        // this new frame instead
@ -293,8 +295,6 @@ screen_frame_sink_push(struct sc_frame_sink *sink, const AVFrame *frame) {
        // Post the event on the UI thread
        SDL_PushEvent(&new_frame_event);
    }
    return true;
 }
 bool
@ -304,15 +304,25 @@ screen_init(struct screen *screen, const struct screen_params *params) {
    screen->fullscreen = false;
    screen->maximized = false;
-    bool ok = video_buffer_init(&screen->vb);
+    static const struct sc_video_buffer_callbacks cbs = {
        .on_new_frame = sc_video_buffer_on_new_frame,
    };
    bool ok = sc_video_buffer_init(&screen->vb, 2000, &cbs, screen);
    if (!ok) {
        LOGE("Could not initialize video buffer");
        return false;
    }
    ok = sc_video_buffer_start(&screen->vb);
    if (!ok) {
        LOGE("Could not start video_buffer");
        goto error_destroy_video_buffer;
    }
    if (!fps_counter_init(&screen->fps_counter)) {
        LOGE("Could not initialize FPS counter");
-        goto error_destroy_video_buffer;
+        goto error_stop_and_join_video_buffer;
    }
    screen->frame_size = params->frame_size;
@ -453,8 +463,11 @@ error_destroy_window:
    SDL_DestroyWindow(screen->window);
 error_destroy_fps_counter:
    fps_counter_destroy(&screen->fps_counter);
 error_stop_and_join_video_buffer:
    sc_video_buffer_stop(&screen->vb);
    sc_video_buffer_join(&screen->vb);
 error_destroy_video_buffer:
-    video_buffer_destroy(&screen->vb);
+    sc_video_buffer_destroy(&screen->vb);
    return false;
 }
@ -471,11 +484,13 @@ screen_hide_window(struct screen *screen) {
 void
 screen_interrupt(struct screen *screen) {
    sc_video_buffer_stop(&screen->vb);
    fps_counter_interrupt(&screen->fps_counter);
 }
 void
 screen_join(struct screen *screen) {
    sc_video_buffer_join(&screen->vb);
    fps_counter_join(&screen->fps_counter);
 }
@ -489,7 +504,7 @@ screen_destroy(struct screen *screen) {
    SDL_DestroyRenderer(screen->renderer);
    SDL_DestroyWindow(screen->window);
    fps_counter_destroy(&screen->fps_counter);
-    video_buffer_destroy(&screen->vb);
+    sc_video_buffer_destroy(&screen->vb);
 }
 static void
@ -595,7 +610,7 @@ update_texture(struct screen *screen, const AVFrame *frame) {
 static bool
 screen_update_frame(struct screen *screen) {
    av_frame_unref(screen->frame);
-    video_buffer_consume(&screen->vb, screen->frame);
+    sc_video_buffer_consume(&screen->vb, screen->frame);
    AVFrame *frame = screen->frame;
    fps_counter_add_rendered_frame(&screen->fps_counter);
--- a/app/src/screen.h
+++ b/app/src/screen.h
@ -8,6 +8,7 @@
 #include <libavformat/avformat.h>
 #include "coords.h"
 #include "fps_counter.h"
 #include "opengl.h"
 #include "trait/frame_sink.h"
 #include "video_buffer.h"
@ -19,7 +20,7 @@ struct screen {
    bool open; // track the open/close state to assert correct behavior
 #endif
-    struct video_buffer vb;
+    struct sc_video_buffer vb;
    struct fps_counter fps_counter;
    SDL_Window *window;
--- a/app/src/server.c
+++ b/app/src/server.c
@ -557,7 +557,7 @@ server_stop(struct server *server) {
 #define WATCHDOG_DELAY_MS 1000
        signaled = sc_cond_timedwait(&server->process_terminated_cond,
                                     &server->mutex,
-                                     WATCHDOG_DELAY_MS);
+                                     sc_tick_now() + WATCHDOG_DELAY_MS);
    }
    sc_mutex_unlock(&server->mutex);
--- a/app/src/util/queue.h
+++ b/app/src/util/queue.h
@ -1,6 +1,6 @@
 // generic intrusive FIFO queue
-#ifndef QUEUE_H
+#ifndef SC_QUEUE_H
-#define QUEUE_H
+#define SC_QUEUE_H
 #include "common.h"
@ -10,15 +10,15 @@
 // To define a queue type of "struct foo":
 //    struct queue_foo QUEUE(struct foo);
-#define QUEUE(TYPE) { \
+#define SC_QUEUE(TYPE) { \
    TYPE *first; \
    TYPE *last; \
 }
-#define queue_init(PQ) \
+#define sc_queue_init(PQ) \
    (void) ((PQ)->first = (PQ)->last = NULL)
-#define queue_is_empty(PQ) \
+#define sc_queue_is_empty(PQ) \
    !(PQ)->first
 // NEXTFIELD is the field in the ITEM type used for intrusive linked-list
@ -30,30 +30,30 @@
 //    };
 //
 //    // define the type "struct my_queue"
-//    struct my_queue QUEUE(struct foo);
+//    struct my_queue SC_QUEUE(struct foo);
 //
 //    struct my_queue queue;
-//    queue_init(&queue);
+//    sc_queue_init(&queue);
 //
 //    struct foo v1 = { .value = 42 };
 //    struct foo v2 = { .value = 27 };
 //
-//    queue_push(&queue, next, v1);
+//    sc_queue_push(&queue, next, v1);
-//    queue_push(&queue, next, v2);
+//    sc_queue_push(&queue, next, v2);
 //
 //    struct foo *foo;
-//    queue_take(&queue, next, &foo);
+//    sc_queue_take(&queue, next, &foo);
 //    assert(foo->value == 42);
-//    queue_take(&queue, next, &foo);
+//    sc_queue_take(&queue, next, &foo);
 //    assert(foo->value == 27);
-//    assert(queue_is_empty(&queue));
+//    assert(sc_queue_is_empty(&queue));
 //
 // push a new item into the queue
-#define queue_push(PQ, NEXTFIELD, ITEM) \
+#define sc_queue_push(PQ, NEXTFIELD, ITEM) \
    (void) ({ \
        (ITEM)->NEXTFIELD = NULL; \
-        if (queue_is_empty(PQ)) { \
+        if (sc_queue_is_empty(PQ)) { \
            (PQ)->first = (PQ)->last = (ITEM); \
        } else { \
            (PQ)->last->NEXTFIELD = (ITEM); \
@ -65,9 +65,9 @@
 // the result is stored in *(PITEM)
 // (without typeof(), we could not store a local variable having the correct
 // type so that we can "return" it)
-#define queue_take(PQ, NEXTFIELD, PITEM) \
+#define sc_queue_take(PQ, NEXTFIELD, PITEM) \
    (void) ({ \
-        assert(!queue_is_empty(PQ)); \
+        assert(!sc_queue_is_empty(PQ)); \
        *(PITEM) = (PQ)->first; \
        (PQ)->first = (PQ)->first->NEXTFIELD; \
    })
--- a/app/src/util/thread.c
+++ b/app/src/util/thread.c
@ -2,6 +2,7 @@
 #include <assert.h>
 #include <SDL2/SDL_thread.h>
 #include <SDL2/SDL_timer.h>
 #include "log.h"
@ -123,8 +124,14 @@ sc_cond_wait(sc_cond *cond, sc_mutex *mutex) {
 }
 bool
-sc_cond_timedwait(sc_cond *cond, sc_mutex *mutex, uint32_t ms) {
+sc_cond_timedwait(sc_cond *cond, sc_mutex *mutex, sc_tick deadline) {
-    int r = SDL_CondWaitTimeout(cond->cond, mutex->mutex, ms);
+    sc_tick now = sc_tick_now();
    if (deadline <= now) {
        return false; // timeout
    }
    sc_tick delay = deadline - now;
    int r = SDL_CondWaitTimeout(cond->cond, mutex->mutex, delay);
 #ifndef NDEBUG
    if (r < 0) {
        LOGC("Could not wait on condition with timeout: %s", SDL_GetError());
@ -163,3 +170,11 @@ sc_cond_broadcast(sc_cond *cond) {
    (void) r;
 #endif
 }
 sc_tick
 sc_tick_now(void) {
    // SDL ticks is an unsigned 32 bits, but this is an implementation detail.
    // It wraps if the program runs for more than ~49 days, but in practice we
    // can assume it does not.
    return (sc_tick) SDL_GetTicks();
 }
--- a/app/src/util/thread.h
+++ b/app/src/util/thread.h
@ -16,6 +16,8 @@ typedef int sc_thread_fn(void *);
 typedef unsigned sc_thread_id;
 typedef atomic_uint sc_atomic_thread_id;
 typedef int64_t sc_tick;
 typedef struct sc_thread {
    SDL_Thread *thread;
 } sc_thread;
@ -72,7 +74,7 @@ sc_cond_wait(sc_cond *cond, sc_mutex *mutex);
 // return true on signaled, false on timeout
 bool
-sc_cond_timedwait(sc_cond *cond, sc_mutex *mutex, uint32_t ms);
+sc_cond_timedwait(sc_cond *cond, sc_mutex *mutex, sc_tick deadline);
 void
 sc_cond_signal(sc_cond *cond);
@ -80,4 +82,7 @@ sc_cond_signal(sc_cond *cond);
 void
 sc_cond_broadcast(sc_cond *cond);
 sc_tick
 sc_tick_now(void);
 #endif
--- a/app/src/v4l2_sink.c
+++ b/app/src/v4l2_sink.c
@ -121,11 +121,11 @@ run_v4l2_sink(void *data) {
            break;
        }
        video_buffer_consume(&vs->vb, vs->frame);
        vs->has_frame = false;
        sc_mutex_unlock(&vs->mutex);
        sc_video_buffer_consume(&vs->vb, vs->frame);
        bool ok = encode_and_write_frame(vs, vs->frame);
        av_frame_unref(vs->frame);
        if (!ok) {
@ -139,17 +139,42 @@ run_v4l2_sink(void *data) {
    return 0;
 }
 static void
 sc_video_buffer_on_new_frame(struct sc_video_buffer *vb, bool previous_skipped,
                             void *userdata) {
    (void) vb;
    struct sc_v4l2_sink *vs = userdata;
    if (!previous_skipped) {
        sc_mutex_lock(&vs->mutex);
        vs->has_frame = true;
        sc_cond_signal(&vs->cond);
        sc_mutex_unlock(&vs->mutex);
    }
 }
 static bool
 sc_v4l2_sink_open(struct sc_v4l2_sink *vs) {
-    bool ok = video_buffer_init(&vs->vb);
+    static const struct sc_video_buffer_callbacks cbs = {
        .on_new_frame = sc_video_buffer_on_new_frame,
    };
    bool ok = sc_video_buffer_init(&vs->vb, 1, &cbs, vs);
    if (!ok) {
        LOGE("Could not initialize video buffer");
        return false;
    }
    ok = sc_video_buffer_start(&vs->vb);
    if (!ok) {
        LOGE("Could not start video buffer");
        goto error_video_buffer_destroy;
    }
    ok = sc_mutex_init(&vs->mutex);
    if (!ok) {
        LOGC("Could not create mutex");
-        goto error_video_buffer_destroy;
+        goto error_video_buffer_stop_and_join;
    }
    ok = sc_cond_init(&vs->cond);
@ -274,8 +299,11 @@ error_cond_destroy:
    sc_cond_destroy(&vs->cond);
 error_mutex_destroy:
    sc_mutex_destroy(&vs->mutex);
 error_video_buffer_stop_and_join:
    sc_video_buffer_stop(&vs->vb);
    sc_video_buffer_join(&vs->vb);
 error_video_buffer_destroy:
-    video_buffer_destroy(&vs->vb);
+    sc_video_buffer_destroy(&vs->vb);
    return false;
 }
@ -287,7 +315,10 @@ sc_v4l2_sink_close(struct sc_v4l2_sink *vs) {
    sc_cond_signal(&vs->cond);
    sc_mutex_unlock(&vs->mutex);
    sc_video_buffer_stop(&vs->vb);
    sc_thread_join(&vs->thread, NULL);
    sc_video_buffer_join(&vs->vb);
    av_packet_free(&vs->packet);
    av_frame_free(&vs->frame);
@ -297,24 +328,12 @@ sc_v4l2_sink_close(struct sc_v4l2_sink *vs) {
    avformat_free_context(vs->format_ctx);
    sc_cond_destroy(&vs->cond);
    sc_mutex_destroy(&vs->mutex);
-    video_buffer_destroy(&vs->vb);
+    sc_video_buffer_destroy(&vs->vb);
 }
 static bool
 sc_v4l2_sink_push(struct sc_v4l2_sink *vs, const AVFrame *frame) {
-    sc_mutex_lock(&vs->mutex);
+    return sc_video_buffer_push(&vs->vb, frame);
    bool ok = video_buffer_push(&vs->vb, frame, NULL);
    if (!ok) {
        return false;
    }
    vs->has_frame = true;
    sc_cond_signal(&vs->cond);
    sc_mutex_unlock(&vs->mutex);
    return true;
 }
 static bool
--- a/app/src/v4l2_sink.h
+++ b/app/src/v4l2_sink.h
@ -12,7 +12,7 @@
 struct sc_v4l2_sink {
    struct sc_frame_sink frame_sink; // frame sink trait
-    struct video_buffer vb;
+    struct sc_video_buffer vb;
    AVFormatContext *format_ctx;
    AVCodecContext *encoder_ctx;
--- a/app/src/video_buffer.c
+++ b/app/src/video_buffer.c
@ -1,88 +1,287 @@
 #include "video_buffer.h"
 #include <assert.h>
 #include <stdlib.h>
 #include <libavutil/avutil.h>
 #include <libavformat/avformat.h>
 #include "util/log.h"
-bool
+#define SC_CLOCK_AVERAGE_RANGE 32
-video_buffer_init(struct video_buffer *vb) {
+
-    vb->pending_frame = av_frame_alloc();
+static void
-    if (!vb->pending_frame) {
+sc_clock_init(struct sc_clock *clock) {
-        return false;
+    clock->coeff = 1;
    clock->offset = 0;
    clock->weight = 0;
    clock->last.system = 0;
    clock->last.stream = 0;
 }
 static sc_tick
 sc_clock_to_system_ts(struct sc_clock *clock, sc_tick stream_ts) {
    assert(clock->weight); // sc_clock_update() must have been called
    return (sc_tick) (stream_ts * clock->coeff) + clock->offset;
 }
 static void
 sc_clock_update(struct sc_clock *clock, sc_tick now, sc_tick stream_ts) {
    double instant_coeff;
    sc_tick mad;
    if (clock->weight) {
        sc_tick system_delta = now - clock->last.system;
        sc_tick stream_delta = stream_ts - clock->last.stream;
        instant_coeff = (double) system_delta / stream_delta;
        sc_tick system_pts = sc_clock_to_system_ts(clock, stream_ts);
        mad = llabs(now - system_pts);
    } else {
        // This is the first update, we cannot compute delta
        instant_coeff = 1;
        mad = 0;
    }
-    vb->tmp_frame = av_frame_alloc();
+    if (clock->weight < SC_CLOCK_AVERAGE_RANGE) {
-    if (!vb->tmp_frame) {
+        ++clock->weight;
        av_frame_free(&vb->pending_frame);
        return false;
    }
-    bool ok = sc_mutex_init(&vb->mutex);
+    // (1-t) * avg + t * new
    clock->coeff = ((clock->weight - 1) * clock->coeff + instant_coeff)
                 / clock->weight;
    // FIXME it cannot change at every frame!
    clock->offset = now - (sc_tick) (stream_ts * clock->coeff);
    LOGD("%g x + %ld", clock->coeff, clock->offset);
    clock->mad = ((clock->weight - 1) * clock->mad + mad) / clock->weight;
    clock->last.system = now;
    clock->last.stream = stream_ts;
 }
 static struct sc_video_buffer_frame *
 sc_video_buffer_frame_new(const AVFrame *frame) {
    struct sc_video_buffer_frame *vb_frame = malloc(sizeof(*vb_frame));
    if (!vb_frame) {
        return NULL;
    }
    vb_frame->frame = av_frame_alloc();
    if (!vb_frame->frame) {
        free(vb_frame);
        return NULL;
    }
    if (av_frame_ref(vb_frame->frame, frame)) {
        av_frame_free(&vb_frame->frame);
        free(vb_frame);
        return NULL;
    }
    return vb_frame;
 }
 static void
 sc_video_buffer_frame_delete(struct sc_video_buffer_frame *vb_frame) {
    av_frame_unref(vb_frame->frame);
    av_frame_free(&vb_frame->frame);
    free(vb_frame);
 }
 static bool
 sc_video_buffer_offer(struct sc_video_buffer *vb, const AVFrame *frame) {
    bool previous_skipped;
    bool ok = sc_frame_buffer_push(&vb->fb, frame, &previous_skipped);
    if (!ok) {
        av_frame_free(&vb->pending_frame);
        av_frame_free(&vb->tmp_frame);
        return false;
    }
-    // there is initially no frame, so consider it has already been consumed
+    vb->cbs->on_new_frame(vb, previous_skipped, vb->cbs_userdata);
    vb->pending_frame_consumed = true;
    return true;
 }
-void
+static int
-video_buffer_destroy(struct video_buffer *vb) {
+run_buffering(void *data) {
-    sc_mutex_destroy(&vb->mutex);
+    struct sc_video_buffer *vb = data;
    av_frame_free(&vb->pending_frame);
    av_frame_free(&vb->tmp_frame);
 }
-static inline void
+    assert(vb->buffering_ms);
-swap_frames(AVFrame **lhs, AVFrame **rhs) {
+
-    AVFrame *tmp = *lhs;
+    for (;;) {
-    *lhs = *rhs;
+        sc_mutex_lock(&vb->b.mutex);
-    *rhs = tmp;
+
        while (!vb->b.stopped && sc_queue_is_empty(&vb->b.queue)) {
            sc_cond_wait(&vb->b.queue_cond, &vb->b.mutex);
        }
        if (vb->b.stopped) {
            sc_mutex_unlock(&vb->b.mutex);
            goto stopped;
        }
        struct sc_video_buffer_frame *vb_frame;
        sc_queue_take(&vb->b.queue, next, &vb_frame);
        sc_tick now = sc_tick_now();
        // FIXME time_base units
        int64_t pts = vb_frame->frame->pts; // micros to millis
        LOGD("==== pts = %ld", pts);
        sc_tick system_pts = sc_clock_to_system_ts(&vb->b.clock, pts);
        if (now + vb->buffering_ms < system_pts) {
            system_pts = now + vb->buffering_ms;
        }
        sc_tick deadline = system_pts + vb->buffering_ms;
        LOGD("==== %ld %ld %ld\n", now, system_pts, deadline);
        LOGD("[WAITING FOR] %ld ", deadline-now);
        bool timed_out = false;
        while (!vb->b.stopped && !timed_out) {
            timed_out =
                !sc_cond_timedwait(&vb->b.wait_cond, &vb->b.mutex, deadline);
        }
        if (vb->b.stopped) {
            sc_video_buffer_frame_delete(vb_frame);
            sc_mutex_unlock(&vb->b.mutex);
            goto stopped;
        }
        sc_mutex_unlock(&vb->b.mutex);
        sc_video_buffer_offer(vb, vb_frame->frame);
        sc_video_buffer_frame_delete(vb_frame);
    }
 stopped:
    // Flush queue
    while (!sc_queue_is_empty(&vb->b.queue)) {
        struct sc_video_buffer_frame *vb_frame;
        sc_queue_take(&vb->b.queue, next, &vb_frame);
        sc_video_buffer_frame_delete(vb_frame);
    }
    LOGD("Buffering thread ended");
    return 0;
 }
 bool
-video_buffer_push(struct video_buffer *vb, const AVFrame *frame,
+sc_video_buffer_init(struct sc_video_buffer *vb, unsigned buffering_ms,
-                  bool *previous_frame_skipped) {
+                     const struct sc_video_buffer_callbacks *cbs,
-    sc_mutex_lock(&vb->mutex);
+                     void *cbs_userdata) {
-
+    bool ok = sc_frame_buffer_init(&vb->fb);
-    // Use a temporary frame to preserve pending_frame in case of error.
+    if (!ok) {
    // tmp_frame is an empty frame, no need to call av_frame_unref() beforehand.
    int r = av_frame_ref(vb->tmp_frame, frame);
    if (r) {
        LOGE("Could not ref frame: %d", r);
        return false;
    }
-    // Now that av_frame_ref() succeeded, we can replace the previous
+    if (buffering_ms) {
-    // pending_frame
+        ok = sc_mutex_init(&vb->b.mutex);
-    swap_frames(&vb->pending_frame, &vb->tmp_frame);
+        if (!ok) {
-    av_frame_unref(vb->tmp_frame);
+            LOGC("Could not create mutex");
            sc_frame_buffer_destroy(&vb->fb);
            return false;
        }
-    if (previous_frame_skipped) {
+        ok = sc_cond_init(&vb->b.queue_cond);
-        *previous_frame_skipped = !vb->pending_frame_consumed;
+        if (!ok) {
            LOGC("Could not create cond");
            sc_mutex_destroy(&vb->b.mutex);
            sc_frame_buffer_destroy(&vb->fb);
            return false;
        }
        ok = sc_cond_init(&vb->b.wait_cond);
        if (!ok) {
            LOGC("Could not create wait cond");
            sc_cond_destroy(&vb->b.queue_cond);
            sc_mutex_destroy(&vb->b.mutex);
            sc_frame_buffer_destroy(&vb->fb);
            return false;
        }
        sc_clock_init(&vb->b.clock);
        sc_queue_init(&vb->b.queue);
    }
    vb->pending_frame_consumed = false;
-    sc_mutex_unlock(&vb->mutex);
+    assert(cbs);
    assert(cbs->on_new_frame);
    vb->buffering_ms = buffering_ms;
    vb->cbs = cbs;
    vb->cbs_userdata = cbs_userdata;
    return true;
 }
 bool
 sc_video_buffer_start(struct sc_video_buffer *vb) {
    if (vb->buffering_ms) {
        bool ok =
            sc_thread_create(&vb->b.thread, run_buffering, "buffering", vb);
        if (!ok) {
            LOGE("Could not start buffering thread");
            return false;
        }
    }
    return true;
 }
 void
-video_buffer_consume(struct video_buffer *vb, AVFrame *dst) {
+sc_video_buffer_stop(struct sc_video_buffer *vb) {
-    sc_mutex_lock(&vb->mutex);
+    if (vb->buffering_ms) {
-    assert(!vb->pending_frame_consumed);
+        sc_mutex_lock(&vb->b.mutex);
-    vb->pending_frame_consumed = true;
+        vb->b.stopped = true;
-
+        sc_cond_signal(&vb->b.queue_cond);
-    av_frame_move_ref(dst, vb->pending_frame);
+        sc_cond_signal(&vb->b.wait_cond);
-    // av_frame_move_ref() resets its source frame, so no need to call
+        sc_mutex_unlock(&vb->b.mutex);
-    // av_frame_unref()
+    }
-
+}
-    sc_mutex_unlock(&vb->mutex);
+
 void
 sc_video_buffer_join(struct sc_video_buffer *vb) {
    if (vb->buffering_ms) {
        sc_thread_join(&vb->b.thread, NULL);
    }
 }
 void
 sc_video_buffer_destroy(struct sc_video_buffer *vb) {
    sc_frame_buffer_destroy(&vb->fb);
    if (vb->buffering_ms) {
        sc_cond_destroy(&vb->b.wait_cond);
        sc_cond_destroy(&vb->b.queue_cond);
        sc_mutex_destroy(&vb->b.mutex);
    }
 }
 bool
 sc_video_buffer_push(struct sc_video_buffer *vb, const AVFrame *frame) {
    if (!vb->buffering_ms) {
        // no buffering
        return sc_video_buffer_offer(vb, frame);
    }
    struct sc_video_buffer_frame *vb_frame = sc_video_buffer_frame_new(frame);
    if (!vb_frame) {
        LOGE("Could not allocate frame");
        return false;
    }
    sc_clock_update(&vb->b.clock, sc_tick_now(), vb_frame->frame->pts);
    sc_mutex_lock(&vb->b.mutex);
    sc_queue_push(&vb->b.queue, next, vb_frame);
    sc_cond_signal(&vb->b.queue_cond);
    sc_mutex_unlock(&vb->b.mutex);
    return true;
 }
 void
 sc_video_buffer_consume(struct sc_video_buffer *vb, AVFrame *dst) {
    sc_frame_buffer_consume(&vb->fb, dst);
 }
--- a/app/src/video_buffer.h
+++ b/app/src/video_buffer.h
@ -1,50 +1,85 @@
-#ifndef VIDEO_BUFFER_H
+#ifndef SC_VIDEO_BUFFER_H
-#define VIDEO_BUFFER_H
+#define SC_VIDEO_BUFFER_H
 #include "common.h"
 #include <stdbool.h>
-#include "fps_counter.h"
+#include "frame_buffer.h"
 #include "util/queue.h"
 #include "util/thread.h"
 // forward declarations
 typedef struct AVFrame AVFrame;
-/**
+struct sc_video_buffer_frame {
- * A video buffer holds 1 pending frame, which is the last frame received from
+    AVFrame *frame;
- * the producer (typically, the decoder).
+    sc_tick system_pts;
- *
+    struct sc_video_buffer_frame *next;
- * If a pending frame has not been consumed when the producer pushes a new
+};
 * frame, then it is lost. The intent is to always provide access to the very
 * last frame to minimize latency.
 *
 * The producer and the consumer typically do not live in the same thread.
 * That's the reason why the callback on_frame_available() does not provide the
 * frame as parameter: the consumer might post an event to its own thread to
 * retrieve the pending frame from there, and that frame may have changed since
 * the callback if producer pushed a new one in between.
 */
-struct video_buffer {
+struct sc_video_buffer_frame_queue SC_QUEUE(struct sc_video_buffer_frame);
    AVFrame *pending_frame;
    AVFrame *tmp_frame; // To preserve the pending frame on error
-    sc_mutex mutex;
+struct sc_clock {
    double coeff;
    sc_tick offset;
    unsigned weight;
-    bool pending_frame_consumed;
+    struct {
        sc_tick system;
        sc_tick stream;
    } last;
    sc_tick mad; // mean absolute difference
 };
 struct sc_video_buffer {
    struct sc_frame_buffer fb;
    unsigned buffering_ms;
    // only if buffering_ms > 0
    struct {
        sc_thread thread;
        sc_mutex mutex;
        sc_cond queue_cond;
        sc_cond wait_cond;
        struct sc_clock clock;
        struct sc_video_buffer_frame_queue queue;
        bool stopped;
    } b; // buffering
    const struct sc_video_buffer_callbacks *cbs;
    void *cbs_userdata;
 };
 struct sc_video_buffer_callbacks {
    void (*on_new_frame)(struct sc_video_buffer *vb, bool previous_skipped,
                         void *userdata);
 };
 bool
-video_buffer_init(struct video_buffer *vb);
+sc_video_buffer_init(struct sc_video_buffer *vb, unsigned buffering_ms,
-
+                     const struct sc_video_buffer_callbacks *cbs,
-void
+                     void *cbs_userdata);
 video_buffer_destroy(struct video_buffer *vb);
 bool
-video_buffer_push(struct video_buffer *vb, const AVFrame *frame, bool *skipped);
+sc_video_buffer_start(struct sc_video_buffer *vb);
 void
-video_buffer_consume(struct video_buffer *vb, AVFrame *dst);
+sc_video_buffer_stop(struct sc_video_buffer *vb);
 void
 sc_video_buffer_join(struct sc_video_buffer *vb);
 void
 sc_video_buffer_destroy(struct sc_video_buffer *vb);
 bool
 sc_video_buffer_push(struct sc_video_buffer *vb, const AVFrame *frame);
 void
 sc_video_buffer_consume(struct sc_video_buffer *vb, AVFrame *dst);
 #endif
--- a/app/tests/test_queue.c
+++ b/app/tests/test_queue.c
@ -10,28 +10,28 @@ struct foo {
 };
 static void test_queue(void) {
-    struct my_queue QUEUE(struct foo) queue;
+    struct my_queue SC_QUEUE(struct foo) queue;
-    queue_init(&queue);
+    sc_queue_init(&queue);
-    assert(queue_is_empty(&queue));
+    assert(sc_queue_is_empty(&queue));
    struct foo v1 = { .value = 42 };
    struct foo v2 = { .value = 27 };
-    queue_push(&queue, next, &v1);
+    sc_queue_push(&queue, next, &v1);
-    queue_push(&queue, next, &v2);
+    sc_queue_push(&queue, next, &v2);
    struct foo *foo;
-    assert(!queue_is_empty(&queue));
+    assert(!sc_queue_is_empty(&queue));
-    queue_take(&queue, next, &foo);
+    sc_queue_take(&queue, next, &foo);
    assert(foo->value == 42);
-    assert(!queue_is_empty(&queue));
+    assert(!sc_queue_is_empty(&queue));
-    queue_take(&queue, next, &foo);
+    sc_queue_take(&queue, next, &foo);
    assert(foo->value == 27);
-    assert(queue_is_empty(&queue));
+    assert(sc_queue_is_empty(&queue));
 }
 int main(int argc, char *argv[]) {
Author	SHA1	Message	Date
Romain Vimont	729be4eef7	wip	2021-07-04 23:48:10 +02:00
Romain Vimont	40721126e2	buffering_thread	2021-07-04 17:29:50 +02:00
Romain Vimont	05c8ed1640	Add missing error log Log video buffer initialization failure in v4l2_sink.	2021-07-04 17:29:50 +02:00
Romain Vimont	5caeb2f624	Notify new frames via callbacks Currently, a frame is available to the consumer as soon as it is pushed by the producer (which can detect if the previous frame is skipped). Notify the new frames (and frame skipped) via callbacks instead. This paves the way to add (optional) buffering, which will introduce a delay between the time when the frame is produced and the time it is available to be consumed.	2021-07-04 17:29:50 +02:00
Romain Vimont	e0fc1b80d2	Extract current video_buffer to frame_buffer The current video buffer only stores one pending frame. In order to add a new buffering feature, move this part to a separate "frame buffer". Keep the video_buffer, which currently delegates all its calls to the frame_buffer.	2021-07-04 17:29:50 +02:00
Romain Vimont	b9a7bd049d	Rename video_buffer to sc_video_buffer Add a scrcpy-specific prefix.	2021-07-04 17:29:50 +02:00
Romain Vimont	5009735032	Relax v4l2_sink lock constraints To fix a data race, commit `5caeab5f6d` called video_buffer_push() and video_buffer_consume() under the v4l2_sink lock. Instead, use the previous_skipped indication (initialized with video buffer locked) to lock only for protecting the has_frame flag. This enables the possibility for the video_buffer to notify new frames via callbacks without lock inversion issues.	2021-07-04 17:29:50 +02:00
Romain Vimont	f2da6662b5	Move include fps_counter The fps_counter is not used from video_buffer.	2021-07-04 17:29:50 +02:00
Romain Vimont	59dc46d35c	Remove obsolete comment Commit `2a94a2b119` removed video_buffer callbacks, the comment is now meaningless.	2021-07-04 17:29:50 +02:00
Romain Vimont	cf9889c5b7	Rename queue to sc_queue Add a scrcpy-specific prefix.	2021-07-04 17:29:50 +02:00
Romain Vimont	0faadc7590	Replace delay by deadline in timedwait() The function sc_cond_timedwait() accepted a parameter representing the max duration to wait, because it internally uses SDL_CondWaitTimeout(). Instead, accept a deadline, to be consistent with pthread_cond_timedwait().	2021-07-04 17:29:50 +02:00
Romain Vimont	1dcd3f295d	Wrap tick API This avoids to use the SDL timer API directly, and will allow to handle generic ticks (possibly negative).	2021-07-04 17:29:14 +02:00