yolobs-studio/plugins/obs-outputs/ftl-stream.c
2018-05-29 21:13:02 +02:00

1166 lines
30 KiB
C

/******************************************************************************
Copyright (C) 2017 by Quinn Damerell <qdamere@microsoft.com>
This program is free software: you can redistribute it and/or modify
it under the terms of the GNU General Public License as published by
the Free Software Foundation, either version 2 of the License, or
(at your option) any later version.
This program is distributed in the hope that it will be useful,
but WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
GNU General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program. If not, see <http://www.gnu.org/licenses/>.
******************************************************************************/
#include <obs-module.h>
#include <obs-avc.h>
#include <util/platform.h>
#include <util/circlebuf.h>
#include <util/dstr.h>
#include <util/threading.h>
#include <inttypes.h>
#include "ftl.h"
#include "flv-mux.h"
#include "net-if.h"
#ifdef _WIN32
#include <Iphlpapi.h>
#else
#include <sys/ioctl.h>
#define INFINITE 0xFFFFFFFF
#endif
#define do_log(level, format, ...) \
blog(level, "[ftl stream: '%s'] " format, \
obs_output_get_name(stream->output), ##__VA_ARGS__)
#define warn(format, ...) do_log(LOG_WARNING, format, ##__VA_ARGS__)
#define info(format, ...) do_log(LOG_INFO, format, ##__VA_ARGS__)
#define debug(format, ...) do_log(LOG_DEBUG, format, ##__VA_ARGS__)
#define OPT_DROP_THRESHOLD "drop_threshold_ms"
#define OPT_MAX_SHUTDOWN_TIME_SEC "max_shutdown_time_sec"
#define OPT_BIND_IP "bind_ip"
typedef struct _nalu_t {
int len;
int dts_usec;
int send_marker_bit;
uint8_t *data;
} nalu_t;
typedef struct _frame_of_nalus_t {
nalu_t nalus[100];
int total;
int complete_frame;
} frame_of_nalus_t;
struct ftl_stream {
obs_output_t *output;
pthread_mutex_t packets_mutex;
struct circlebuf packets;
bool sent_headers;
int64_t frames_sent;
volatile bool connecting;
pthread_t connect_thread;
pthread_t status_thread;
volatile bool active;
volatile bool disconnected;
pthread_t send_thread;
int max_shutdown_time_sec;
os_sem_t *send_sem;
os_event_t *stop_event;
uint64_t stop_ts;
uint64_t shutdown_timeout_ts;
struct dstr path;
uint32_t channel_id;
struct dstr username, password;
struct dstr encoder_name;
struct dstr bind_ip;
/* frame drop variables */
int64_t drop_threshold_usec;
int64_t pframe_drop_threshold_usec;
int min_priority;
float congestion;
int64_t last_dts_usec;
uint64_t total_bytes_sent;
uint64_t dropped_frames;
uint64_t last_nack_count;
ftl_handle_t ftl_handle;
ftl_ingest_params_t params;
int peak_kbps;
uint32_t scale_width, scale_height, width, height;
frame_of_nalus_t coded_pic_buffer;
};
static void log_libftl_messages(ftl_log_severity_t log_level,
const char *message);
static int init_connect(struct ftl_stream *stream);
static void *connect_thread(void *data);
static void *status_thread(void *data);
static int _ftl_error_to_obs_error(int status);
static const char *ftl_stream_getname(void *unused)
{
UNUSED_PARAMETER(unused);
return obs_module_text("FTLStream");
}
static void log_ftl(int level, const char *format, va_list args)
{
blogva(LOG_INFO, format, args);
UNUSED_PARAMETER(level);
}
static inline size_t num_buffered_packets(struct ftl_stream *stream);
static inline void free_packets(struct ftl_stream *stream)
{
size_t num_packets;
pthread_mutex_lock(&stream->packets_mutex);
num_packets = num_buffered_packets(stream);
if (num_packets)
info("Freeing %d remaining packets", (int)num_packets);
while (stream->packets.size) {
struct encoder_packet packet;
circlebuf_pop_front(&stream->packets, &packet, sizeof(packet));
obs_encoder_packet_release(&packet);
}
pthread_mutex_unlock(&stream->packets_mutex);
}
static inline bool stopping(struct ftl_stream *stream)
{
return os_event_try(stream->stop_event) != EAGAIN;
}
static inline bool connecting(struct ftl_stream *stream)
{
return os_atomic_load_bool(&stream->connecting);
}
static inline bool active(struct ftl_stream *stream)
{
return os_atomic_load_bool(&stream->active);
}
static inline bool disconnected(struct ftl_stream *stream)
{
return os_atomic_load_bool(&stream->disconnected);
}
static void ftl_stream_destroy(void *data)
{
struct ftl_stream *stream = data;
ftl_status_t status_code;
info("ftl_stream_destroy");
if (stopping(stream) && !connecting(stream)) {
pthread_join(stream->send_thread, NULL);
} else if (connecting(stream) || active(stream)) {
if (stream->connecting) {
info("wait for connect_thread to terminate");
pthread_join(stream->status_thread, NULL);
pthread_join(stream->connect_thread, NULL);
info("wait for connect_thread to terminate: done");
}
stream->stop_ts = 0;
os_event_signal(stream->stop_event);
if (active(stream)) {
os_sem_post(stream->send_sem);
obs_output_end_data_capture(stream->output);
pthread_join(stream->send_thread, NULL);
}
}
info("ingest destroy");
status_code = ftl_ingest_destroy(&stream->ftl_handle);
if (status_code != FTL_SUCCESS) {
info("Failed to destroy from ingest %d", status_code);
}
if (stream) {
free_packets(stream);
dstr_free(&stream->path);
dstr_free(&stream->username);
dstr_free(&stream->password);
dstr_free(&stream->encoder_name);
dstr_free(&stream->bind_ip);
os_event_destroy(stream->stop_event);
os_sem_destroy(stream->send_sem);
pthread_mutex_destroy(&stream->packets_mutex);
circlebuf_free(&stream->packets);
bfree(stream);
}
}
static void *ftl_stream_create(obs_data_t *settings, obs_output_t *output)
{
struct ftl_stream *stream = bzalloc(sizeof(struct ftl_stream));
info("ftl_stream_create");
stream->output = output;
pthread_mutex_init_value(&stream->packets_mutex);
stream->peak_kbps = -1;
ftl_init();
if (pthread_mutex_init(&stream->packets_mutex, NULL) != 0) {
goto fail;
}
if (os_event_init(&stream->stop_event, OS_EVENT_TYPE_MANUAL) != 0) {
goto fail;
}
stream->coded_pic_buffer.total = 0;
stream->coded_pic_buffer.complete_frame = 0;
UNUSED_PARAMETER(settings);
return stream;
fail:
return NULL;
}
static void ftl_stream_stop(void *data, uint64_t ts)
{
struct ftl_stream *stream = data;
info("ftl_stream_stop");
if (stopping(stream) && ts != 0) {
return;
}
if (connecting(stream)) {
pthread_join(stream->status_thread, NULL);
pthread_join(stream->connect_thread, NULL);
}
stream->stop_ts = ts / 1000ULL;
if (ts) {
stream->shutdown_timeout_ts = ts +
(uint64_t)stream->max_shutdown_time_sec * 1000000000ULL;
}
if (active(stream)) {
os_event_signal(stream->stop_event);
if (stream->stop_ts == 0)
os_sem_post(stream->send_sem);
} else {
obs_output_signal_stop(stream->output, OBS_OUTPUT_SUCCESS);
}
}
static inline bool get_next_packet(struct ftl_stream *stream,
struct encoder_packet *packet)
{
bool new_packet = false;
pthread_mutex_lock(&stream->packets_mutex);
if (stream->packets.size) {
circlebuf_pop_front(&stream->packets, packet,
sizeof(struct encoder_packet));
new_packet = true;
}
pthread_mutex_unlock(&stream->packets_mutex);
return new_packet;
}
static int avc_get_video_frame(struct ftl_stream *stream,
struct encoder_packet *packet, bool is_header)
{
int consumed = 0;
int len = (int)packet->size;
nalu_t *nalu;
unsigned char *video_stream = packet->data;
while ((size_t)consumed < packet->size) {
size_t total_max = sizeof(stream->coded_pic_buffer.nalus) /
sizeof(stream->coded_pic_buffer.nalus[0]);
if ((size_t)stream->coded_pic_buffer.total >= total_max) {
warn("ERROR: cannot continue, nalu buffers are full");
return -1;
}
nalu = &stream->coded_pic_buffer.nalus
[stream->coded_pic_buffer.total];
if (is_header) {
if (consumed == 0) {
//first 6 bytes are some obs header with part
//of the sps
video_stream += 6;
consumed += 6;
} else {
//another spacer byte of 0x1
video_stream += 1;
consumed += 1;
}
len = video_stream[0] << 8 | video_stream[1];
video_stream += 2;
consumed += 2;
} else {
len = video_stream[0] << 24 |
video_stream[1] << 16 |
video_stream[2] << 8 |
video_stream[3];
if ((size_t)len > (packet->size - (size_t)consumed)) {
warn("ERROR: got len of %d but packet only "
"has %d left",
len,
(int)(packet->size - consumed));
}
consumed += 4;
video_stream += 4;
}
consumed += len;
uint8_t nalu_type = video_stream[0] & 0x1F;
uint8_t nri = (video_stream[0] >> 5) & 0x3;
if ((nalu_type != 12 && nalu_type != 6 && nalu_type != 9) ||
nri) {
nalu->data = video_stream;
nalu->len = len;
nalu->send_marker_bit = 0;
stream->coded_pic_buffer.total++;
}
video_stream += len;
}
if (!is_header) {
size_t idx = stream->coded_pic_buffer.total - 1;
stream->coded_pic_buffer.nalus[idx].send_marker_bit = 1;
}
return 0;
}
static int send_packet(struct ftl_stream *stream,
struct encoder_packet *packet, bool is_header)
{
int bytes_sent = 0;
int ret = 0;
if (packet->type == OBS_ENCODER_VIDEO) {
stream->coded_pic_buffer.total = 0;
avc_get_video_frame(stream, packet, is_header);
int i;
for (i = 0; i < stream->coded_pic_buffer.total; i++) {
nalu_t *nalu = &stream->coded_pic_buffer.nalus[i];
bytes_sent += ftl_ingest_send_media_dts(
&stream->ftl_handle,
FTL_VIDEO_DATA,
packet->dts_usec,
nalu->data,
nalu->len,
nalu->send_marker_bit);
if (nalu->send_marker_bit) {
stream->frames_sent++;
}
}
} else if (packet->type == OBS_ENCODER_AUDIO) {
bytes_sent += ftl_ingest_send_media_dts(
&stream->ftl_handle,
FTL_AUDIO_DATA,
packet->dts_usec,
packet->data,
(int)packet->size, 0);
} else {
warn("Got packet type %d", packet->type);
}
if (is_header) {
bfree(packet->data);
}
else {
obs_encoder_packet_release(packet);
}
stream->total_bytes_sent += bytes_sent;
return ret;
}
static void set_peak_bitrate(struct ftl_stream *stream)
{
int speedtest_kbps = 15000;
int speedtest_duration = 1000;
speed_test_t results;
ftl_status_t status_code;
status_code = ftl_ingest_speed_test_ex(
&stream->ftl_handle,
speedtest_kbps,
speedtest_duration,
&results);
float percent_lost = 0;
if (status_code == FTL_SUCCESS) {
percent_lost = (float)results.lost_pkts * 100.f /
(float)results.pkts_sent;
} else {
warn("Speed test failed with: %s",
ftl_status_code_to_string(status_code));
}
// Get what the user set the encoding bitrate to.
obs_encoder_t *video_encoder = obs_output_get_video_encoder(stream->output);
obs_data_t *video_settings = obs_encoder_get_settings(video_encoder);
int user_desired_bitrate = (int)obs_data_get_int(video_settings, "bitrate");
obs_data_release(video_settings);
// Report the results.
info("Speed test completed: User desired bitrate %d, Peak kbps %d, "
"initial rtt %d, "
"final rtt %d, %3.2f lost packets",
user_desired_bitrate,
results.peak_kbps,
results.starting_rtt,
results.ending_rtt,
percent_lost);
// We still want to set the peak to about 1.2x what the target bitrate is,
// even if the speed test reported it should be lower. If we don't, FTL
// will queue data on the client and start adding latency. If the internet
// connection really can't handle the bitrate the user will see either lost frame
// and recovered frame counts go up, which is reflect in the dropped_frames count.
stream->peak_kbps = stream->params.peak_kbps = user_desired_bitrate * 12 / 10;
ftl_ingest_update_params(&stream->ftl_handle, &stream->params);
}
static inline bool send_headers(struct ftl_stream *stream, int64_t dts_usec);
static inline bool can_shutdown_stream(struct ftl_stream *stream,
struct encoder_packet *packet)
{
uint64_t cur_time = os_gettime_ns();
bool timeout = cur_time >= stream->shutdown_timeout_ts;
if (timeout)
info("Stream shutdown timeout reached (%d second(s))",
stream->max_shutdown_time_sec);
return timeout || packet->sys_dts_usec >= (int64_t)stream->stop_ts;
}
static void *send_thread(void *data)
{
struct ftl_stream *stream = data;
ftl_status_t status_code;
os_set_thread_name("ftl-stream: send_thread");
while (os_sem_wait(stream->send_sem) == 0) {
struct encoder_packet packet;
if (stopping(stream) && stream->stop_ts == 0) {
break;
}
if (!get_next_packet(stream, &packet))
continue;
if (stopping(stream)) {
if (can_shutdown_stream(stream, &packet)) {
obs_encoder_packet_release(&packet);
break;
}
}
/* sends sps/pps on every key frame as this is typically
* required for webrtc */
if (packet.keyframe) {
if (!send_headers(stream, packet.dts_usec)) {
os_atomic_set_bool(&stream->disconnected, true);
break;
}
}
if (send_packet(stream, &packet, false) < 0) {
os_atomic_set_bool(&stream->disconnected, true);
break;
}
}
if (disconnected(stream)) {
info("Disconnected from %s", stream->path.array);
} else {
info("User stopped the stream");
}
if (!stopping(stream)) {
pthread_detach(stream->send_thread);
obs_output_signal_stop(stream->output, OBS_OUTPUT_DISCONNECTED);
} else {
obs_output_end_data_capture(stream->output);
}
info("ingest disconnect");
status_code = ftl_ingest_disconnect(&stream->ftl_handle);
if (status_code != FTL_SUCCESS) {
printf("Failed to disconnect from ingest %d", status_code);
}
free_packets(stream);
os_event_reset(stream->stop_event);
os_atomic_set_bool(&stream->active, false);
stream->sent_headers = false;
return NULL;
}
static bool send_video_header(struct ftl_stream *stream, int64_t dts_usec)
{
obs_output_t *context = stream->output;
obs_encoder_t *vencoder = obs_output_get_video_encoder(context);
uint8_t *header;
size_t size;
struct encoder_packet packet = {
.type = OBS_ENCODER_VIDEO,
.timebase_den = 1,
.keyframe = true,
.dts_usec = dts_usec
};
obs_encoder_get_extra_data(vencoder, &header, &size);
packet.size = obs_parse_avc_header(&packet.data, header, size);
return send_packet(stream, &packet, true) >= 0;
}
static inline bool send_headers(struct ftl_stream *stream, int64_t dts_usec)
{
stream->sent_headers = true;
if (!send_video_header(stream, dts_usec))
return false;
return true;
}
static inline bool reset_semaphore(struct ftl_stream *stream)
{
os_sem_destroy(stream->send_sem);
return os_sem_init(&stream->send_sem, 0) == 0;
}
#ifdef _WIN32
#define socklen_t int
#endif
static int init_send(struct ftl_stream *stream)
{
int ret;
reset_semaphore(stream);
ret = pthread_create(&stream->send_thread, NULL, send_thread, stream);
if (ret != 0) {
warn("Failed to create send thread");
return OBS_OUTPUT_ERROR;
}
os_atomic_set_bool(&stream->active, true);
obs_output_begin_data_capture(stream->output, 0);
return OBS_OUTPUT_SUCCESS;
}
static int try_connect(struct ftl_stream *stream)
{
ftl_status_t status_code;
if (dstr_is_empty(&stream->path)) {
warn("URL is empty");
return OBS_OUTPUT_BAD_PATH;
}
info("Connecting to FTL Ingest URL %s...", stream->path.array);
stream->width = (int)obs_output_get_width(stream->output);
stream->height = (int)obs_output_get_height(stream->output);
status_code = ftl_ingest_connect(&stream->ftl_handle);
if (status_code != FTL_SUCCESS) {
if (status_code == FTL_BAD_OR_INVALID_STREAM_KEY) {
blog(LOG_ERROR, "Invalid Key (%s)",
ftl_status_code_to_string(status_code));
return OBS_OUTPUT_INVALID_STREAM;
} else {
warn("Ingest connect failed with: %s (%d)",
ftl_status_code_to_string(status_code),
status_code);
return _ftl_error_to_obs_error(status_code);
}
}
info("Connection to %s successful", stream->path.array);
// Always get the peak bitrate when we are starting.
set_peak_bitrate(stream);
pthread_create(&stream->status_thread, NULL, status_thread, stream);
return init_send(stream);
}
static bool ftl_stream_start(void *data)
{
struct ftl_stream *stream = data;
info("ftl_stream_start");
// Mixer doesn't support bframes. So force them off.
obs_encoder_t *video_encoder = obs_output_get_video_encoder(stream->output);
obs_data_t *video_settings = obs_encoder_get_settings(video_encoder);
obs_data_set_int(video_settings, "bf", 0);
obs_data_release(video_settings);
if (!obs_output_can_begin_data_capture(stream->output, 0)) {
return false;
}
if (!obs_output_initialize_encoders(stream->output, 0)) {
return false;
}
stream->frames_sent = 0;
os_atomic_set_bool(&stream->connecting, true);
return pthread_create(&stream->connect_thread, NULL, connect_thread,
stream) == 0;
}
static inline bool add_packet(struct ftl_stream *stream,
struct encoder_packet *packet)
{
circlebuf_push_back(&stream->packets, packet,
sizeof(struct encoder_packet));
return true;
}
static inline size_t num_buffered_packets(struct ftl_stream *stream)
{
return stream->packets.size / sizeof(struct encoder_packet);
}
static void drop_frames(struct ftl_stream *stream, const char *name,
int highest_priority, bool pframes)
{
UNUSED_PARAMETER(pframes);
struct circlebuf new_buf = {0};
int num_frames_dropped = 0;
#ifdef _DEBUG
int start_packets = (int)num_buffered_packets(stream);
#else
UNUSED_PARAMETER(name);
#endif
circlebuf_reserve(&new_buf, sizeof(struct encoder_packet) * 8);
while (stream->packets.size) {
struct encoder_packet packet;
circlebuf_pop_front(&stream->packets, &packet, sizeof(packet));
/* do not drop audio data or video keyframes */
if (packet.type == OBS_ENCODER_AUDIO ||
packet.drop_priority >= highest_priority) {
circlebuf_push_back(&new_buf, &packet, sizeof(packet));
} else {
num_frames_dropped++;
obs_encoder_packet_release(&packet);
}
}
circlebuf_free(&stream->packets);
stream->packets = new_buf;
if (stream->min_priority < highest_priority)
stream->min_priority = highest_priority;
if (!num_frames_dropped)
return;
stream->dropped_frames += num_frames_dropped;
#ifdef _DEBUG
debug("Dropped %s, prev packet count: %d, new packet count: %d",
name,
start_packets,
(int)num_buffered_packets(stream));
#endif
}
static bool find_first_video_packet(struct ftl_stream *stream,
struct encoder_packet *first)
{
size_t count = stream->packets.size / sizeof(*first);
for (size_t i = 0; i < count; i++) {
struct encoder_packet *cur = circlebuf_data(&stream->packets,
i * sizeof(*first));
if (cur->type == OBS_ENCODER_VIDEO && !cur->keyframe) {
*first = *cur;
return true;
}
}
return false;
}
static void check_to_drop_frames(struct ftl_stream *stream, bool pframes)
{
struct encoder_packet first;
int64_t buffer_duration_usec;
size_t num_packets = num_buffered_packets(stream);
const char *name = pframes ? "p-frames" : "b-frames";
int priority = pframes ?
OBS_NAL_PRIORITY_HIGHEST : OBS_NAL_PRIORITY_HIGH;
int64_t drop_threshold = pframes ?
stream->pframe_drop_threshold_usec :
stream->drop_threshold_usec;
if (num_packets < 5) {
if (!pframes)
stream->congestion = 0.0f;
return;
}
if (!find_first_video_packet(stream, &first))
return;
/* if the amount of time stored in the buffered packets waiting to be
* sent is higher than threshold, drop frames */
buffer_duration_usec = stream->last_dts_usec - first.dts_usec;
if (!pframes) {
stream->congestion = (float)buffer_duration_usec /
(float)drop_threshold;
}
if (buffer_duration_usec > drop_threshold) {
debug("buffer_duration_usec: %" PRId64, buffer_duration_usec);
drop_frames(stream, name, priority, pframes);
}
}
static bool add_video_packet(struct ftl_stream *stream,
struct encoder_packet *packet)
{
check_to_drop_frames(stream, false);
check_to_drop_frames(stream, true);
/* if currently dropping frames, drop packets until it reaches the
* desired priority */
if (packet->priority < stream->min_priority) {
stream->dropped_frames++;
return false;
} else {
stream->min_priority = 0;
}
stream->last_dts_usec = packet->dts_usec;
return add_packet(stream, packet);
}
static void ftl_stream_data(void *data, struct encoder_packet *packet)
{
struct ftl_stream *stream = data;
struct encoder_packet new_packet;
bool added_packet = false;
if (disconnected(stream) || !active(stream))
return;
if (packet->type == OBS_ENCODER_VIDEO)
obs_parse_avc_packet(&new_packet, packet);
else
obs_encoder_packet_ref(&new_packet, packet);
pthread_mutex_lock(&stream->packets_mutex);
if (!disconnected(stream)) {
added_packet = (packet->type == OBS_ENCODER_VIDEO) ?
add_video_packet(stream, &new_packet) :
add_packet(stream, &new_packet);
}
pthread_mutex_unlock(&stream->packets_mutex);
if (added_packet)
os_sem_post(stream->send_sem);
else
obs_encoder_packet_release(&new_packet);
}
static void ftl_stream_defaults(obs_data_t *defaults)
{
UNUSED_PARAMETER(defaults);
}
static obs_properties_t *ftl_stream_properties(void *unused)
{
UNUSED_PARAMETER(unused);
obs_properties_t *props = obs_properties_create();
obs_properties_add_int(props, "peak_bitrate_kbps",
obs_module_text("FTLStream.PeakBitrate"),
1000, 10000, 500);
return props;
}
static uint64_t ftl_stream_total_bytes_sent(void *data)
{
struct ftl_stream *stream = data;
return stream->total_bytes_sent;
}
static int ftl_stream_dropped_frames(void *data)
{
struct ftl_stream *stream = data;
return (int)stream->dropped_frames;
}
static float ftl_stream_congestion(void *data)
{
struct ftl_stream *stream = data;
return stream->min_priority > 0 ? 1.0f : stream->congestion;
}
enum ret_type {
RET_CONTINUE,
RET_BREAK,
RET_EXIT,
};
static enum ret_type ftl_event(struct ftl_stream *stream,
ftl_status_msg_t status)
{
if (status.msg.event.type != FTL_STATUS_EVENT_TYPE_DISCONNECTED)
return RET_CONTINUE;
info("Disconnected from ingest with reason: %s",
ftl_status_code_to_string(status.msg.event.error_code));
if (status.msg.event.reason == FTL_STATUS_EVENT_REASON_API_REQUEST) {
return RET_BREAK;
}
//tell OBS and it will trigger a reconnection
blog(LOG_WARNING, "Reconnecting to Ingest");
obs_output_signal_stop(stream->output, OBS_OUTPUT_DISCONNECTED);
return RET_EXIT;
}
static void *status_thread(void *data)
{
struct ftl_stream *stream = data;
ftl_status_msg_t status;
ftl_status_t status_code;
while (!disconnected(stream)) {
status_code = ftl_ingest_get_status(&stream->ftl_handle,
&status, 1000);
if (status_code == FTL_STATUS_TIMEOUT ||
status_code == FTL_QUEUE_EMPTY) {
continue;
} else if (status_code == FTL_NOT_INITIALIZED) {
break;
}
if (status.type == FTL_STATUS_EVENT) {
enum ret_type ret_type = ftl_event(stream, status);
if (ret_type == RET_EXIT)
return NULL;
else if (ret_type == RET_BREAK)
break;
} else if(status.type == FTL_STATUS_LOG) {
blog(LOG_INFO, "[%d] %s", status.msg.log.log_level,
status.msg.log.string);
} else if (status.type == FTL_STATUS_VIDEO_PACKETS) {
ftl_packet_stats_msg_t *p = &status.msg.pkt_stats;
// Report nack requests as dropped frames
stream->dropped_frames +=
p->nack_reqs -stream->last_nack_count;
stream->last_nack_count = p->nack_reqs;
int log_level = p->nack_reqs > 0 ? LOG_INFO : LOG_DEBUG;
blog(log_level, "Avg packet send per second %3.1f, "
"total nack requests %d",
(float)p->sent * 1000.f / p->period,
(int)p->nack_reqs);
} else if (status.type == FTL_STATUS_VIDEO_PACKETS_INSTANT) {
ftl_packet_stats_instant_msg_t *p =
&status.msg.ipkt_stats;
int log_level = p->avg_rtt > 20 ? LOG_INFO : LOG_DEBUG;
blog(log_level, "avg transmit delay %dms "
"(min: %d, max: %d), "
"avg rtt %dms (min: %d, max: %d)",
p->avg_xmit_delay,
p->min_xmit_delay, p->max_xmit_delay,
p->avg_rtt, p->min_rtt, p->max_rtt);
} else if (status.type == FTL_STATUS_VIDEO) {
ftl_video_frame_stats_msg_t *v =
&status.msg.video_stats;
int log_level = v->queue_fullness > 0 ?
LOG_INFO : LOG_DEBUG;
blog(log_level, "Queue an average of %3.2f fps "
"(%3.1f kbps), "
"sent an average of %3.2f fps "
"(%3.1f kbps), "
"queue fullness %d, "
"max frame size %d",
(float)v->frames_queued * 1000.f / v->period,
(float)v->bytes_queued / v->period * 8,
(float)v->frames_sent * 1000.f / v->period,
(float)v->bytes_sent / v->period * 8,
v->queue_fullness, v->max_frame_size);
} else {
blog(LOG_DEBUG, "Status: Got Status message of type "
"%d", status.type);
}
}
blog(LOG_DEBUG, "status_thread: Exited");
pthread_detach(stream->status_thread);
return NULL;
}
static void *connect_thread(void *data)
{
struct ftl_stream *stream = data;
int ret;
os_set_thread_name("ftl-stream: connect_thread");
blog(LOG_WARNING, "ftl-stream: connect thread");
ret = init_connect(stream);
if (ret != OBS_OUTPUT_SUCCESS) {
obs_output_signal_stop(stream->output, ret);
return NULL;
}
ret = try_connect(stream);
if (ret != OBS_OUTPUT_SUCCESS) {
obs_output_signal_stop(stream->output, ret);
info("Connection to %s failed: %d", stream->path.array, ret);
}
if (!stopping(stream))
pthread_detach(stream->connect_thread);
os_atomic_set_bool(&stream->connecting, false);
return NULL;
}
static void log_libftl_messages(ftl_log_severity_t log_level,
const char * message)
{
UNUSED_PARAMETER(log_level);
blog(LOG_WARNING, "[libftl] %s", message);
}
static int init_connect(struct ftl_stream *stream)
{
obs_service_t *service;
obs_data_t *settings;
const char *bind_ip, *key;
ftl_status_t status_code;
info("init_connect");
if (stopping(stream))
pthread_join(stream->send_thread, NULL);
free_packets(stream);
service = obs_output_get_service(stream->output);
if (!service) {
return OBS_OUTPUT_ERROR;
}
os_atomic_set_bool(&stream->disconnected, false);
stream->total_bytes_sent = 0;
stream->dropped_frames = 0;
stream->min_priority = 0;
settings = obs_output_get_settings(stream->output);
obs_encoder_t *video_encoder =
obs_output_get_video_encoder(stream->output);
obs_data_t *video_settings =
obs_encoder_get_settings(video_encoder);
dstr_copy(&stream->path, obs_service_get_url(service));
key = obs_service_get_key(service);
int target_bitrate = (int)obs_data_get_int(video_settings, "bitrate");
int peak_bitrate = (int)((float)target_bitrate * 1.1f);
//minimum overshoot tolerance of 10%
if (peak_bitrate < target_bitrate) {
peak_bitrate = target_bitrate;
}
stream->params.stream_key = (char*)key;
stream->params.video_codec = FTL_VIDEO_H264;
stream->params.audio_codec = FTL_AUDIO_OPUS;
stream->params.ingest_hostname = stream->path.array;
stream->params.vendor_name = "OBS Studio";
stream->params.vendor_version = OBS_VERSION;
stream->params.peak_kbps =
stream->peak_kbps < 0 ? 0 : stream->peak_kbps;
//not required when using ftl_ingest_send_media_dts
stream->params.fps_num = 0;
stream->params.fps_den = 0;
status_code = ftl_ingest_create(&stream->ftl_handle, &stream->params);
if (status_code != FTL_SUCCESS) {
if (status_code == FTL_BAD_OR_INVALID_STREAM_KEY) {
blog(LOG_ERROR, "Invalid Key (%s)",
ftl_status_code_to_string(status_code));
return OBS_OUTPUT_INVALID_STREAM;
}
else {
blog(LOG_ERROR, "Failed to create ingest handle (%s)",
ftl_status_code_to_string(status_code));
return OBS_OUTPUT_ERROR;
}
}
dstr_copy(&stream->username, obs_service_get_username(service));
dstr_copy(&stream->password, obs_service_get_password(service));
dstr_depad(&stream->path);
stream->drop_threshold_usec =
(int64_t)obs_data_get_int(settings, OPT_DROP_THRESHOLD) * 1000;
stream->max_shutdown_time_sec =
(int)obs_data_get_int(settings, OPT_MAX_SHUTDOWN_TIME_SEC);
bind_ip = obs_data_get_string(settings, OPT_BIND_IP);
dstr_copy(&stream->bind_ip, bind_ip);
obs_data_release(settings);
obs_data_release(video_settings);
return OBS_OUTPUT_SUCCESS;
}
// Returns 0 on success
static int _ftl_error_to_obs_error(int status)
{
/* Map FTL errors to OBS errors */
switch (status) {
case FTL_SUCCESS:
return OBS_OUTPUT_SUCCESS;
case FTL_SOCKET_NOT_CONNECTED:
case FTL_MALLOC_FAILURE:
case FTL_INTERNAL_ERROR:
case FTL_CONFIG_ERROR:
case FTL_NOT_ACTIVE_STREAM:
case FTL_NOT_CONNECTED:
case FTL_ALREADY_CONNECTED:
case FTL_STATUS_TIMEOUT:
case FTL_QUEUE_FULL:
case FTL_STATUS_WAITING_FOR_KEY_FRAME:
case FTL_QUEUE_EMPTY:
case FTL_NOT_INITIALIZED:
return OBS_OUTPUT_ERROR;
case FTL_BAD_REQUEST:
case FTL_DNS_FAILURE:
case FTL_CONNECT_ERROR:
case FTL_UNSUPPORTED_MEDIA_TYPE:
case FTL_OLD_VERSION:
case FTL_UNAUTHORIZED:
case FTL_AUDIO_SSRC_COLLISION:
case FTL_VIDEO_SSRC_COLLISION:
case FTL_STREAM_REJECTED:
case FTL_BAD_OR_INVALID_STREAM_KEY:
case FTL_CHANNEL_IN_USE:
case FTL_REGION_UNSUPPORTED:
case FTL_GAME_BLOCKED:
return OBS_OUTPUT_CONNECT_FAILED;
case FTL_NO_MEDIA_TIMEOUT:
return OBS_OUTPUT_DISCONNECTED;
case FTL_USER_DISCONNECT:
return OBS_OUTPUT_SUCCESS;
case FTL_UNKNOWN_ERROR_CODE:
default:
/* Unknown FTL error */
return OBS_OUTPUT_ERROR;
}
}
struct obs_output_info ftl_output_info = {
.id = "ftl_output",
.flags = OBS_OUTPUT_AV |
OBS_OUTPUT_ENCODED |
OBS_OUTPUT_SERVICE,
.encoded_video_codecs = "h264",
.encoded_audio_codecs = "opus",
.get_name = ftl_stream_getname,
.create = ftl_stream_create,
.destroy = ftl_stream_destroy,
.start = ftl_stream_start,
.stop = ftl_stream_stop,
.encoded_packet = ftl_stream_data,
.get_defaults = ftl_stream_defaults,
.get_properties = ftl_stream_properties,
.get_total_bytes = ftl_stream_total_bytes_sent,
.get_congestion = ftl_stream_congestion,
.get_dropped_frames = ftl_stream_dropped_frames
};