gstreamer/subprojects/gst-plugins-bad/sys/aja/gstajasrc.cpp

2811 lines
104 KiB
C++

/* GStreamer
* Copyright (C) 2021 Sebastian Dröge <sebastian@centricular.com>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library 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
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public
* License along with this library; if not, write to the
* Free Software Foundation, Inc., 51 Franklin Street, Suite 500,
* Boston, MA 02110-1335, USA.
*/
/**
* SECTION:element-ajasrc
*
* Source element for [AJA](https://www.aja.com) capture cards.
*
* ## Example usage
*
* Capture 1080p30 audio/video and display it locally
*
* ```sh
* gst-launch-1.0 ajasrc video-format=1080p-3000 ! ajasrcdemux name=d \
* d.video ! queue max-size-bytes=0 max-size-buffers=0 max-size-time=1000000000 ! videoconvert ! autovideosink \
* d.audio ! queue max-size-bytes=0 max-size-buffers=0 max-size-time=1000000000 ! audioconvert ! audioresample ! autoaudiosink
* ```
*
* Capture 1080p30 audio/video and directly output it again on the same card
*
* ```sh
* gst-launch-1.0 ajasrc video-format=1080p-3000 channel=1 input-source=sdi-1 audio-system=2 ! ajasrcdemux name=d \
* d.video ! queue max-size-bytes=0 max-size-buffers=0 max-size-time=1000000000 ! c.video \
* d.audio ! queue max-size-bytes=0 max-size-buffers=0 max-size-time=1000000000 ! c.audio \
* ajasinkcombiner name=c ! ajasink channel=0 reference-source=input-1
* ```
*
* Since: 1.24
*
*/
#ifdef HAVE_CONFIG_H
#include "config.h"
#endif
#include <ajaanc/includes/ancillarydata_cea608_vanc.h>
#include <ajaanc/includes/ancillarydata_cea708.h>
#include <ajaanc/includes/ancillarylist.h>
#include <ajantv2/includes/ntv2rp188.h>
#include <ajantv2/includes/ntv2vpid.h>
#include "gstajacommon.h"
#include "gstajasrc.h"
GST_DEBUG_CATEGORY_STATIC(gst_aja_src_debug);
#define GST_CAT_DEFAULT gst_aja_src_debug
#define DEFAULT_DEVICE_IDENTIFIER ("0")
#define DEFAULT_CHANNEL (::NTV2_CHANNEL1)
#define DEFAULT_VIDEO_FORMAT (GST_AJA_VIDEO_FORMAT_AUTO)
#define DEFAULT_AUDIO_SYSTEM (GST_AJA_AUDIO_SYSTEM_AUTO)
#define DEFAULT_INPUT_SOURCE (GST_AJA_INPUT_SOURCE_AUTO)
#define DEFAULT_SDI_MODE (GST_AJA_SDI_MODE_SINGLE_LINK)
#define DEFAULT_AUDIO_SOURCE (GST_AJA_AUDIO_SOURCE_EMBEDDED)
#define DEFAULT_EMBEDDED_AUDIO_INPUT (GST_AJA_EMBEDDED_AUDIO_INPUT_AUTO)
#define DEFAULT_TIMECODE_INDEX (GST_AJA_TIMECODE_INDEX_VITC)
#define DEFAULT_RP188 (TRUE)
#define DEFAULT_REFERENCE_SOURCE (GST_AJA_REFERENCE_SOURCE_FREERUN)
#define DEFAULT_CLOSED_CAPTION_CAPTURE_MODE \
(GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA708_AND_CEA608)
#define DEFAULT_QUEUE_SIZE (16)
#define DEFAULT_START_FRAME (8)
#define DEFAULT_END_FRAME (8)
#define DEFAULT_CAPTURE_CPU_CORE (G_MAXUINT)
#define DEFAULT_ATTACH_ANCILLARY_META (FALSE)
enum {
PROP_0,
PROP_DEVICE_IDENTIFIER,
PROP_CHANNEL,
PROP_VIDEO_FORMAT,
PROP_AUDIO_SYSTEM,
PROP_INPUT_SOURCE,
PROP_SDI_MODE,
PROP_AUDIO_SOURCE,
PROP_EMBEDDED_AUDIO_INPUT,
PROP_TIMECODE_INDEX,
PROP_RP188,
PROP_REFERENCE_SOURCE,
PROP_CLOSED_CAPTION_CAPTURE_MODE,
PROP_START_FRAME,
PROP_END_FRAME,
PROP_QUEUE_SIZE,
PROP_CAPTURE_CPU_CORE,
PROP_SIGNAL,
PROP_ATTACH_ANCILLARY_META,
};
// Make these plain C structs for usage in GstQueueArray
G_BEGIN_DECLS
typedef enum {
QUEUE_ITEM_TYPE_DUMMY,
QUEUE_ITEM_TYPE_FRAME,
QUEUE_ITEM_TYPE_SIGNAL_CHANGE,
QUEUE_ITEM_TYPE_ERROR,
QUEUE_ITEM_TYPE_FRAMES_DROPPED,
} QueueItemType;
typedef struct {
QueueItemType type;
union {
// For DUMMY
struct {
gchar dummy;
} dummy;
// For FRAME
struct {
GstClockTime capture_time;
GstBuffer *video_buffer;
GstBuffer *audio_buffer;
GstBuffer *anc_buffer, *anc_buffer2;
NTV2_RP188 tc;
NTV2VideoFormat detected_format;
guint32 vpid;
} frame;
// For SIGNAL_CHANGE
struct {
gboolean have_signal;
NTV2VideoFormat detected_format;
guint32 vpid;
} signal_change;
// For ERROR
struct {
GstMessage *msg;
} error;
// For FRAMES_DROPPED
struct {
gboolean driver_side;
GstClockTime timestamp_start, timestamp_end;
} frames_dropped;
};
} QueueItem;
G_END_DECLS
static void queue_item_clear(QueueItem *item) {
switch (item->type) {
case QUEUE_ITEM_TYPE_DUMMY:
break;
case QUEUE_ITEM_TYPE_FRAME:
gst_clear_buffer(&item->frame.video_buffer);
gst_clear_buffer(&item->frame.audio_buffer);
gst_clear_buffer(&item->frame.anc_buffer);
gst_clear_buffer(&item->frame.anc_buffer2);
item->frame.tc.~NTV2_RP188();
break;
case QUEUE_ITEM_TYPE_SIGNAL_CHANGE:
break;
case QUEUE_ITEM_TYPE_ERROR:
gst_clear_message(&item->error.msg);
break;
case QUEUE_ITEM_TYPE_FRAMES_DROPPED:
break;
}
item->type = QUEUE_ITEM_TYPE_DUMMY;
}
static void gst_aja_src_set_property(GObject *object, guint property_id,
const GValue *value, GParamSpec *pspec);
static void gst_aja_src_get_property(GObject *object, guint property_id,
GValue *value, GParamSpec *pspec);
static void gst_aja_src_finalize(GObject *object);
static GstCaps *gst_aja_src_get_caps(GstBaseSrc *bsrc, GstCaps *filter);
static gboolean gst_aja_src_query(GstBaseSrc *bsrc, GstQuery *query);
static gboolean gst_aja_src_unlock(GstBaseSrc *bsrc);
static gboolean gst_aja_src_unlock_stop(GstBaseSrc *bsrc);
static GstFlowReturn gst_aja_src_create(GstPushSrc *psrc, GstBuffer **buffer);
static gboolean gst_aja_src_open(GstAjaSrc *src);
static gboolean gst_aja_src_close(GstAjaSrc *src);
static gboolean gst_aja_src_stop(GstAjaSrc *src);
static GstStateChangeReturn gst_aja_src_change_state(GstElement *element,
GstStateChange transition);
static void capture_thread_func(AJAThread *thread, void *data);
#define parent_class gst_aja_src_parent_class
G_DEFINE_TYPE(GstAjaSrc, gst_aja_src, GST_TYPE_PUSH_SRC);
static void gst_aja_src_class_init(GstAjaSrcClass *klass) {
GObjectClass *gobject_class = G_OBJECT_CLASS(klass);
GstElementClass *element_class = GST_ELEMENT_CLASS(klass);
GstBaseSrcClass *basesrc_class = GST_BASE_SRC_CLASS(klass);
GstPushSrcClass *pushsrc_class = GST_PUSH_SRC_CLASS(klass);
GstCaps *templ_caps;
gobject_class->set_property = gst_aja_src_set_property;
gobject_class->get_property = gst_aja_src_get_property;
gobject_class->finalize = gst_aja_src_finalize;
g_object_class_install_property(
gobject_class, PROP_DEVICE_IDENTIFIER,
g_param_spec_string(
"device-identifier", "Device identifier",
"Input device instance to use", DEFAULT_DEVICE_IDENTIFIER,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_CHANNEL,
g_param_spec_uint(
"channel", "Channel", "Channel to use", 0, NTV2_MAX_NUM_CHANNELS - 1,
DEFAULT_CHANNEL,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_VIDEO_FORMAT,
g_param_spec_enum(
"video-format", "Video Format", "Video format to use",
GST_TYPE_AJA_VIDEO_FORMAT, DEFAULT_VIDEO_FORMAT,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_QUEUE_SIZE,
g_param_spec_uint(
"queue-size", "Queue Size",
"Size of internal queue in number of video frames. "
"Half of this is allocated as device buffers and equal to the "
"latency.",
1, G_MAXINT, DEFAULT_QUEUE_SIZE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)));
g_object_class_install_property(
gobject_class, PROP_START_FRAME,
g_param_spec_uint(
"start-frame", "Start Frame",
"Start frame buffer to be used for capturing (automatically assign "
"that many frames if same number as end-frame).",
0, G_MAXINT, DEFAULT_START_FRAME,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)));
g_object_class_install_property(
gobject_class, PROP_END_FRAME,
g_param_spec_uint(
"end-frame", "End Frame",
"End frame buffer to be used for capturing (automatically assign "
"that many frames if same number as start-frame).",
0, G_MAXINT, DEFAULT_END_FRAME,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS)));
g_object_class_install_property(
gobject_class, PROP_AUDIO_SYSTEM,
g_param_spec_enum(
"audio-system", "Audio System", "Audio system to use",
GST_TYPE_AJA_AUDIO_SYSTEM, DEFAULT_AUDIO_SYSTEM,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_INPUT_SOURCE,
g_param_spec_enum(
"input-source", "Input Source", "Input source to use",
GST_TYPE_AJA_INPUT_SOURCE, DEFAULT_INPUT_SOURCE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_SDI_MODE,
g_param_spec_enum(
"sdi-input-mode", "SDI Input Mode", "SDI input mode to use",
GST_TYPE_AJA_SDI_MODE, DEFAULT_SDI_MODE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_AUDIO_SOURCE,
g_param_spec_enum(
"audio-source", "Audio Source", "Audio source to use",
GST_TYPE_AJA_AUDIO_SOURCE, DEFAULT_AUDIO_SOURCE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_EMBEDDED_AUDIO_INPUT,
g_param_spec_enum(
"embedded-audio-input", "Embedded Audio Input",
"Embedded Audio Input to use", GST_TYPE_AJA_EMBEDDED_AUDIO_INPUT,
DEFAULT_EMBEDDED_AUDIO_INPUT,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_TIMECODE_INDEX,
g_param_spec_enum(
"timecode-index", "Timecode Index", "Timecode index to use",
GST_TYPE_AJA_TIMECODE_INDEX, DEFAULT_TIMECODE_INDEX,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_RP188,
g_param_spec_boolean(
"rp188", "RP188", "Enable RP188 timecode retrieval", DEFAULT_RP188,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_REFERENCE_SOURCE,
g_param_spec_enum(
"reference-source", "Reference Source", "Reference source to use",
GST_TYPE_AJA_REFERENCE_SOURCE, DEFAULT_REFERENCE_SOURCE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_CLOSED_CAPTION_CAPTURE_MODE,
g_param_spec_enum(
"closed-caption-capture-mode", "Closed Caption Capture Mode",
"Closed Caption Capture Mode",
GST_TYPE_AJA_CLOSED_CAPTION_CAPTURE_MODE,
DEFAULT_CLOSED_CAPTION_CAPTURE_MODE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_CAPTURE_CPU_CORE,
g_param_spec_uint(
"capture-cpu-core", "Capture CPU Core",
"Sets the affinity of the capture thread to this CPU core "
"(-1=disabled)",
0, G_MAXUINT, DEFAULT_CAPTURE_CPU_CORE,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
g_object_class_install_property(
gobject_class, PROP_SIGNAL,
g_param_spec_boolean(
"signal", "Input signal available",
"True if there is a valid input signal available", FALSE,
(GParamFlags)(G_PARAM_READABLE | G_PARAM_STATIC_STRINGS)));
/**
* GstAjaSrc:attach-ancillary-meta:
*
* If set to %TRUE attach any ancillary data as #GstAncillaryMeta on buffers
*
* Since: 1.24
*/
g_object_class_install_property(
gobject_class, PROP_ATTACH_ANCILLARY_META,
g_param_spec_boolean(
"attach-ancillary-meta", "Attach Ancillary Meta",
"Attach ancillary meta to video frames",
DEFAULT_ATTACH_ANCILLARY_META,
(GParamFlags)(G_PARAM_READWRITE | G_PARAM_STATIC_STRINGS |
G_PARAM_CONSTRUCT)));
element_class->change_state = GST_DEBUG_FUNCPTR(gst_aja_src_change_state);
basesrc_class->get_caps = GST_DEBUG_FUNCPTR(gst_aja_src_get_caps);
basesrc_class->negotiate = NULL;
basesrc_class->query = GST_DEBUG_FUNCPTR(gst_aja_src_query);
basesrc_class->unlock = GST_DEBUG_FUNCPTR(gst_aja_src_unlock);
basesrc_class->unlock_stop = GST_DEBUG_FUNCPTR(gst_aja_src_unlock_stop);
pushsrc_class->create = GST_DEBUG_FUNCPTR(gst_aja_src_create);
templ_caps = gst_ntv2_supported_caps(DEVICE_ID_INVALID);
gst_element_class_add_pad_template(
element_class,
gst_pad_template_new("src", GST_PAD_SRC, GST_PAD_ALWAYS, templ_caps));
gst_caps_unref(templ_caps);
gst_element_class_set_static_metadata(
element_class, "AJA audio/video src", "Audio/Video/Source",
"Captures audio/video frames with AJA devices",
"Sebastian Dröge <sebastian@centricular.com>");
GST_DEBUG_CATEGORY_INIT(gst_aja_src_debug, "ajasrc", 0, "AJA src");
}
static void gst_aja_src_init(GstAjaSrc *self) {
g_mutex_init(&self->queue_lock);
g_cond_init(&self->queue_cond);
self->device_identifier = g_strdup(DEFAULT_DEVICE_IDENTIFIER);
self->channel = DEFAULT_CHANNEL;
self->queue_size = DEFAULT_QUEUE_SIZE;
self->start_frame = DEFAULT_START_FRAME;
self->end_frame = DEFAULT_END_FRAME;
self->video_format_setting = DEFAULT_VIDEO_FORMAT;
self->audio_system_setting = DEFAULT_AUDIO_SYSTEM;
self->input_source = DEFAULT_INPUT_SOURCE;
self->audio_source = DEFAULT_AUDIO_SOURCE;
self->embedded_audio_input = DEFAULT_EMBEDDED_AUDIO_INPUT;
self->timecode_index = DEFAULT_TIMECODE_INDEX;
self->reference_source = DEFAULT_REFERENCE_SOURCE;
self->closed_caption_capture_mode = DEFAULT_CLOSED_CAPTION_CAPTURE_MODE;
self->capture_cpu_core = DEFAULT_CAPTURE_CPU_CORE;
self->attach_ancillary_meta = DEFAULT_ATTACH_ANCILLARY_META;
self->queue =
gst_queue_array_new_for_struct(sizeof(QueueItem), self->queue_size);
gst_base_src_set_live(GST_BASE_SRC_CAST(self), TRUE);
gst_base_src_set_format(GST_BASE_SRC_CAST(self), GST_FORMAT_TIME);
self->video_format = NTV2_FORMAT_UNKNOWN;
}
void gst_aja_src_set_property(GObject *object, guint property_id,
const GValue *value, GParamSpec *pspec) {
GstAjaSrc *self = GST_AJA_SRC(object);
switch (property_id) {
case PROP_DEVICE_IDENTIFIER:
g_free(self->device_identifier);
self->device_identifier = g_value_dup_string(value);
break;
case PROP_CHANNEL:
self->channel = (NTV2Channel)g_value_get_uint(value);
break;
case PROP_QUEUE_SIZE:
self->queue_size = g_value_get_uint(value);
break;
case PROP_START_FRAME:
self->start_frame = g_value_get_uint(value);
break;
case PROP_END_FRAME:
self->end_frame = g_value_get_uint(value);
break;
case PROP_VIDEO_FORMAT:
self->video_format_setting = (GstAjaVideoFormat)g_value_get_enum(value);
break;
case PROP_AUDIO_SYSTEM:
self->audio_system_setting = (GstAjaAudioSystem)g_value_get_enum(value);
break;
case PROP_INPUT_SOURCE:
self->input_source = (GstAjaInputSource)g_value_get_enum(value);
break;
case PROP_SDI_MODE:
self->sdi_mode = (GstAjaSdiMode)g_value_get_enum(value);
break;
case PROP_AUDIO_SOURCE:
self->audio_source = (GstAjaAudioSource)g_value_get_enum(value);
break;
case PROP_EMBEDDED_AUDIO_INPUT:
self->embedded_audio_input =
(GstAjaEmbeddedAudioInput)g_value_get_enum(value);
break;
case PROP_TIMECODE_INDEX:
self->timecode_index = (GstAjaTimecodeIndex)g_value_get_enum(value);
break;
case PROP_RP188:
self->rp188 = g_value_get_boolean(value);
break;
case PROP_REFERENCE_SOURCE:
self->reference_source = (GstAjaReferenceSource)g_value_get_enum(value);
break;
case PROP_CLOSED_CAPTION_CAPTURE_MODE:
self->closed_caption_capture_mode =
(GstAjaClosedCaptionCaptureMode)g_value_get_enum(value);
break;
case PROP_CAPTURE_CPU_CORE:
self->capture_cpu_core = g_value_get_uint(value);
break;
case PROP_ATTACH_ANCILLARY_META:
self->attach_ancillary_meta = g_value_get_boolean(value);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec);
break;
}
}
void gst_aja_src_get_property(GObject *object, guint property_id, GValue *value,
GParamSpec *pspec) {
GstAjaSrc *self = GST_AJA_SRC(object);
switch (property_id) {
case PROP_DEVICE_IDENTIFIER:
g_value_set_string(value, self->device_identifier);
break;
case PROP_CHANNEL:
g_value_set_uint(value, self->channel);
break;
case PROP_QUEUE_SIZE:
g_value_set_uint(value, self->queue_size);
break;
case PROP_START_FRAME:
g_value_set_uint(value, self->start_frame);
break;
case PROP_END_FRAME:
g_value_set_uint(value, self->end_frame);
break;
case PROP_VIDEO_FORMAT:
g_value_set_enum(value, self->video_format_setting);
break;
case PROP_AUDIO_SYSTEM:
g_value_set_enum(value, self->audio_system_setting);
break;
case PROP_INPUT_SOURCE:
g_value_set_enum(value, self->input_source);
break;
case PROP_SDI_MODE:
g_value_set_enum(value, self->sdi_mode);
break;
case PROP_AUDIO_SOURCE:
g_value_set_enum(value, self->audio_source);
break;
case PROP_EMBEDDED_AUDIO_INPUT:
g_value_set_enum(value, self->embedded_audio_input);
break;
case PROP_TIMECODE_INDEX:
g_value_set_enum(value, self->timecode_index);
break;
case PROP_RP188:
g_value_set_boolean(value, self->rp188);
break;
case PROP_REFERENCE_SOURCE:
g_value_set_enum(value, self->reference_source);
break;
case PROP_CLOSED_CAPTION_CAPTURE_MODE:
g_value_set_enum(value, self->closed_caption_capture_mode);
break;
case PROP_CAPTURE_CPU_CORE:
g_value_set_uint(value, self->capture_cpu_core);
break;
case PROP_SIGNAL:
g_value_set_boolean(value, self->signal);
break;
case PROP_ATTACH_ANCILLARY_META:
g_value_set_boolean(value, self->attach_ancillary_meta);
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID(object, property_id, pspec);
break;
}
}
void gst_aja_src_finalize(GObject *object) {
GstAjaSrc *self = GST_AJA_SRC(object);
g_assert(self->device == NULL);
g_assert(gst_queue_array_get_length(self->queue) == 0);
g_clear_pointer(&self->queue, gst_queue_array_free);
g_mutex_clear(&self->queue_lock);
g_cond_clear(&self->queue_cond);
G_OBJECT_CLASS(parent_class)->finalize(object);
}
static gboolean gst_aja_src_open(GstAjaSrc *self) {
GST_DEBUG_OBJECT(self, "Opening device");
g_assert(self->device == NULL);
self->device = gst_aja_ntv2_device_obtain(self->device_identifier);
if (!self->device) {
GST_ERROR_OBJECT(self, "Failed to open device");
return FALSE;
}
if (!self->device->device->IsDeviceReady(false)) {
g_clear_pointer(&self->device, gst_aja_ntv2_device_unref);
return FALSE;
}
self->device->device->SetEveryFrameServices(::NTV2_OEM_TASKS);
self->device_id = self->device->device->GetDeviceID();
std::string serial_number;
if (!self->device->device->GetSerialNumberString(serial_number))
serial_number = "none";
GST_DEBUG_OBJECT(self,
"Opened device with ID %d at index %d (%s, version %s, "
"serial number %s, can do VANC %d)",
self->device_id, self->device->device->GetIndexNumber(),
self->device->device->GetDisplayName().c_str(),
self->device->device->GetDeviceVersionString().c_str(),
serial_number.c_str(),
::NTV2DeviceCanDoCustomAnc(self->device_id));
GST_DEBUG_OBJECT(self,
"Using SDK version %d.%d.%d.%d (%s) and driver version %s",
AJA_NTV2_SDK_VERSION_MAJOR, AJA_NTV2_SDK_VERSION_MINOR,
AJA_NTV2_SDK_VERSION_POINT, AJA_NTV2_SDK_BUILD_NUMBER,
AJA_NTV2_SDK_BUILD_DATETIME,
self->device->device->GetDriverVersionString().c_str());
self->device->device->SetMultiFormatMode(true);
self->allocator = gst_aja_allocator_new(self->device);
GST_DEBUG_OBJECT(self, "Opened device");
return TRUE;
}
static gboolean gst_aja_src_close(GstAjaSrc *self) {
gst_clear_object(&self->allocator);
g_clear_pointer(&self->device, gst_aja_ntv2_device_unref);
self->device_id = DEVICE_ID_INVALID;
GST_DEBUG_OBJECT(self, "Closed device");
return TRUE;
}
// Must be called with ShmMutexLocker
static gboolean gst_aja_src_configure(GstAjaSrc *self) {
GST_DEBUG_OBJECT(self, "Starting");
#define NEEDS_QUAD_MODE(self) \
(self->sdi_mode == GST_AJA_SDI_MODE_QUAD_LINK_SQD || \
self->sdi_mode == GST_AJA_SDI_MODE_QUAD_LINK_TSI || \
(self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 && \
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4))
self->quad_mode = NEEDS_QUAD_MODE(self);
#undef NEEDS_QUAD_MODE
if (self->quad_mode) {
if (self->input_source != GST_AJA_INPUT_SOURCE_AUTO &&
!(self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 &&
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4)) {
GST_ERROR_OBJECT(
self,
"Quad modes require usage of the channel's default input source");
return FALSE;
}
if (self->channel != ::NTV2_CHANNEL1 && self->channel != ::NTV2_CHANNEL5) {
GST_ERROR_OBJECT(self, "Quad modes require channels 1 or 5");
return FALSE;
}
}
bool had_quad_enabled = false, had_quad_quad_enabled = false;
// HDMI can also be internally quad mode but it runs on a single channel.
if (!(self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 &&
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4)) {
if (self->channel < ::NTV2_CHANNEL5) {
self->device->device->GetQuadFrameEnable(had_quad_enabled,
::NTV2_CHANNEL1);
// 12G UHD is also internally considered quad modes but they run on a
// single channel.
if (had_quad_enabled && ::NTV2DeviceCanDo12gRouting(self->device_id)) {
NTV2VideoFormat fmt =
self->device->device->GetInputVideoFormat(::NTV2_INPUTSOURCE_SDI1);
if (fmt >= NTV2_FORMAT_FIRST_UHD_TSI_DEF_FORMAT &&
fmt < NTV2_FORMAT_END_4K_TSI_DEF_FORMATS)
had_quad_enabled = false;
}
self->device->device->GetQuadQuadFrameEnable(had_quad_quad_enabled,
::NTV2_CHANNEL1);
} else {
self->device->device->GetQuadFrameEnable(had_quad_enabled,
::NTV2_CHANNEL5);
// 12G UHD is also internally considered quad modes but they run on a
// single channel.
if (had_quad_enabled && ::NTV2DeviceCanDo12gRouting(self->device_id)) {
NTV2VideoFormat fmt =
self->device->device->GetInputVideoFormat(::NTV2_INPUTSOURCE_SDI5);
if (fmt >= NTV2_FORMAT_FIRST_UHD_TSI_DEF_FORMAT &&
fmt < NTV2_FORMAT_END_4K_TSI_DEF_FORMATS)
had_quad_enabled = false;
}
self->device->device->GetQuadQuadFrameEnable(had_quad_quad_enabled,
::NTV2_CHANNEL5);
}
}
// Stop any previously running quad mode, or other configurations on the
// quad channels
self->device->device->AutoCirculateStop(self->channel);
if (self->quad_mode || had_quad_enabled || had_quad_enabled) {
NTV2Channel quad_channel;
if (self->channel < ::NTV2_CHANNEL5)
quad_channel = ::NTV2_CHANNEL1;
else
quad_channel = ::NTV2_CHANNEL5;
for (int i = 0; i < 4; i++) {
self->device->device->AutoCirculateStop((NTV2Channel)(quad_channel + i));
}
}
if (self->buffer_pool) {
gst_buffer_pool_set_active(self->buffer_pool, FALSE);
gst_clear_object(&self->buffer_pool);
}
if (self->audio_buffer_pool) {
gst_buffer_pool_set_active(self->audio_buffer_pool, FALSE);
gst_clear_object(&self->audio_buffer_pool);
}
if (self->anc_buffer_pool) {
gst_buffer_pool_set_active(self->anc_buffer_pool, FALSE);
gst_clear_object(&self->anc_buffer_pool);
}
NTV2VANCMode vanc_mode;
NTV2InputSource input_source;
NTV2OutputCrosspointID input_source_id;
switch (self->input_source) {
case GST_AJA_INPUT_SOURCE_AUTO:
input_source = ::NTV2ChannelToInputSource(self->channel);
input_source_id = ::GetSDIInputOutputXptFromChannel(self->channel, false);
vanc_mode = ::NTV2DeviceCanDoCustomAnc(self->device_id)
? ::NTV2_VANCMODE_OFF
: ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_ANALOG1:
input_source = ::NTV2_INPUTSOURCE_ANALOG1;
input_source_id = ::NTV2_XptAnalogIn;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_HDMI1:
input_source = ::NTV2_INPUTSOURCE_HDMI1;
input_source_id = ::NTV2_XptHDMIIn1;
vanc_mode = ::NTV2_VANCMODE_OFF;
break;
case GST_AJA_INPUT_SOURCE_HDMI2:
input_source = ::NTV2_INPUTSOURCE_HDMI2;
input_source_id = ::NTV2_XptHDMIIn2;
vanc_mode = ::NTV2_VANCMODE_OFF;
break;
case GST_AJA_INPUT_SOURCE_HDMI3:
input_source = ::NTV2_INPUTSOURCE_HDMI3;
input_source_id = ::NTV2_XptHDMIIn3;
vanc_mode = ::NTV2_VANCMODE_OFF;
break;
case GST_AJA_INPUT_SOURCE_HDMI4:
input_source = ::NTV2_INPUTSOURCE_HDMI4;
input_source_id = ::NTV2_XptHDMIIn4;
vanc_mode = ::NTV2_VANCMODE_OFF;
break;
case GST_AJA_INPUT_SOURCE_SDI1:
input_source = ::NTV2_INPUTSOURCE_SDI1;
input_source_id = ::NTV2_XptSDIIn1;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI2:
input_source = ::NTV2_INPUTSOURCE_SDI2;
input_source_id = ::NTV2_XptSDIIn2;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI3:
input_source = ::NTV2_INPUTSOURCE_SDI3;
input_source_id = ::NTV2_XptSDIIn3;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI4:
input_source = ::NTV2_INPUTSOURCE_SDI4;
input_source_id = ::NTV2_XptSDIIn4;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI5:
input_source = ::NTV2_INPUTSOURCE_SDI5;
input_source_id = ::NTV2_XptSDIIn5;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI6:
input_source = ::NTV2_INPUTSOURCE_SDI6;
input_source_id = ::NTV2_XptSDIIn6;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI7:
input_source = ::NTV2_INPUTSOURCE_SDI7;
input_source_id = ::NTV2_XptSDIIn7;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
case GST_AJA_INPUT_SOURCE_SDI8:
input_source = ::NTV2_INPUTSOURCE_SDI8;
input_source_id = ::NTV2_XptSDIIn8;
vanc_mode = ::NTV2_VANCMODE_TALL;
break;
default:
g_assert_not_reached();
break;
}
self->configured_input_source = input_source;
self->vanc_mode = vanc_mode;
if (!self->device->device->EnableChannel(self->channel)) {
GST_ERROR_OBJECT(self, "Failed to enable channel");
return FALSE;
}
if (self->quad_mode) {
for (int i = 1; i < 4; i++) {
if (!self->device->device->EnableChannel(
(NTV2Channel)(self->channel + i))) {
GST_ERROR_OBJECT(self, "Failed to enable channel");
return FALSE;
}
}
}
self->device->device->EnableInputInterrupt(self->channel);
self->device->device->SubscribeInputVerticalEvent(self->channel);
if (self->video_format_setting == GST_AJA_VIDEO_FORMAT_AUTO) {
self->device->device->WaitForInputVerticalInterrupt(self->channel, 10);
self->video_format = self->device->device->GetInputVideoFormat(
self->configured_input_source);
if (self->video_format == NTV2_FORMAT_UNKNOWN) {
GST_ERROR_OBJECT(self, "Input video format not detected");
return TRUE;
}
std::string configured_string = NTV2VideoFormatToString(self->video_format);
GST_DEBUG_OBJECT(self, "Detected input video format %s (%d)",
configured_string.c_str(), (int)self->video_format);
} else {
self->video_format = gst_ntv2_video_format_from_aja_format(
self->video_format_setting, self->quad_mode);
}
if (self->video_format == NTV2_FORMAT_UNKNOWN) {
GST_ERROR_OBJECT(self, "Unsupported mode");
return FALSE;
}
if (!::NTV2DeviceCanDoVideoFormat(self->device_id, self->video_format)) {
GST_ERROR_OBJECT(self, "Device does not support mode %d",
(int)self->video_format);
return FALSE;
}
gst_video_info_from_ntv2_video_format(&self->configured_info,
self->video_format);
if (self->quad_mode) {
if (self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 &&
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4) {
self->device->device->SetQuadQuadFrameEnable(false, self->channel);
self->device->device->SetQuadQuadSquaresEnable(false, self->channel);
self->device->device->Set4kSquaresEnable(true, self->channel);
self->device->device->SetTsiFrameEnable(true, self->channel);
} else {
switch (self->sdi_mode) {
case GST_AJA_SDI_MODE_SINGLE_LINK:
g_assert_not_reached();
break;
case GST_AJA_SDI_MODE_QUAD_LINK_SQD:
if (self->configured_info.height > 2160) {
self->device->device->Set4kSquaresEnable(false, self->channel);
self->device->device->SetTsiFrameEnable(false, self->channel);
self->device->device->SetQuadQuadFrameEnable(true, self->channel);
self->device->device->SetQuadQuadSquaresEnable(true, self->channel);
} else {
self->device->device->SetQuadQuadFrameEnable(false, self->channel);
self->device->device->SetQuadQuadSquaresEnable(false,
self->channel);
self->device->device->Set4kSquaresEnable(true, self->channel);
self->device->device->SetTsiFrameEnable(false, self->channel);
}
break;
case GST_AJA_SDI_MODE_QUAD_LINK_TSI:
if (self->configured_info.height > 2160) {
self->device->device->Set4kSquaresEnable(false, self->channel);
self->device->device->SetTsiFrameEnable(false, self->channel);
self->device->device->SetQuadQuadFrameEnable(true, self->channel);
self->device->device->SetQuadQuadSquaresEnable(false,
self->channel);
} else {
self->device->device->SetQuadQuadFrameEnable(false, self->channel);
self->device->device->SetQuadQuadSquaresEnable(false,
self->channel);
self->device->device->Set4kSquaresEnable(false, self->channel);
self->device->device->SetTsiFrameEnable(true, self->channel);
}
break;
}
}
} else if (had_quad_enabled || had_quad_quad_enabled) {
NTV2Channel quad_channel;
if (self->channel < ::NTV2_CHANNEL5)
quad_channel = ::NTV2_CHANNEL1;
else
quad_channel = ::NTV2_CHANNEL5;
self->device->device->Set4kSquaresEnable(false, quad_channel);
self->device->device->SetTsiFrameEnable(false, quad_channel);
self->device->device->SetQuadQuadFrameEnable(false, quad_channel);
self->device->device->SetQuadQuadSquaresEnable(false, quad_channel);
}
self->device->device->SetMode(self->channel, NTV2_MODE_CAPTURE, false);
if (self->quad_mode) {
for (int i = 1; i < 4; i++)
self->device->device->SetMode((NTV2Channel)(self->channel + i),
NTV2_MODE_CAPTURE, false);
}
std::string configured_string = NTV2VideoFormatToString(self->video_format);
GST_DEBUG_OBJECT(self, "Configuring video format %s (%d) on channel %d",
configured_string.c_str(), (int)self->video_format,
(int)self->channel);
if (!self->device->device->SetVideoFormat(self->video_format, false, false,
self->channel)) {
GST_DEBUG_OBJECT(
self, "Failed configuring video format %s (%d) on channel %d",
configured_string.c_str(), (int)self->video_format, (int)self->channel);
return FALSE;
}
if (!::NTV2DeviceCanDoFrameBufferFormat(self->device_id,
::NTV2_FBF_10BIT_YCBCR)) {
GST_ERROR_OBJECT(self, "Device does not support frame buffer format %d",
(int)::NTV2_FBF_10BIT_YCBCR);
return FALSE;
}
if (!self->device->device->SetFrameBufferFormat(self->channel,
::NTV2_FBF_10BIT_YCBCR)) {
GST_ERROR_OBJECT(self, "Failed configuring frame buffer format %d",
(int)::NTV2_FBF_10BIT_YCBCR);
return FALSE;
}
// FIXME: Workaround for sometimes setting the video format not actually
// changing the register values. Let's just try again.
{
NTV2VideoFormat fmt;
self->device->device->GetVideoFormat(fmt, self->channel);
if (fmt != self->video_format) {
std::string actual_string = NTV2VideoFormatToString(fmt);
GST_ERROR_OBJECT(self,
"Configured video format %s (%d) on channel %d but %s "
"(%d) is configured instead, trying again",
configured_string.c_str(), (int)self->video_format,
(int)self->channel, actual_string.c_str(), (int)fmt);
self->video_format = ::NTV2_FORMAT_UNKNOWN;
return TRUE;
}
}
if (self->quad_mode) {
for (int i = 1; i < 4; i++)
self->device->device->SetFrameBufferFormat(
(NTV2Channel)(self->channel + i), ::NTV2_FBF_10BIT_YCBCR);
}
self->device->device->DMABufferAutoLock(false, true, 0);
if (::NTV2DeviceHasBiDirectionalSDI(self->device_id)) {
self->device->device->SetSDITransmitEnable(self->channel, false);
if (self->quad_mode) {
for (int i = 1; i < 4; i++)
self->device->device->SetSDITransmitEnable(
(NTV2Channel)(self->channel + i), false);
}
}
// Always use the framebuffer associated with the channel
NTV2InputCrosspointID framebuffer_id =
::GetFrameBufferInputXptFromChannel(self->channel, false);
const NTV2Standard standard(
::GetNTV2StandardFromVideoFormat(self->video_format));
self->device->device->SetStandard(standard, self->channel);
if (self->quad_mode) {
for (int i = 1; i < 4; i++)
self->device->device->SetStandard(standard,
(NTV2Channel)(self->channel + i));
}
const NTV2FrameGeometry geometry =
::GetNTV2FrameGeometryFromVideoFormat(self->video_format);
self->vanc_mode =
::HasVANCGeometries(geometry) ? vanc_mode : ::NTV2_VANCMODE_OFF;
if (self->vanc_mode == ::NTV2_VANCMODE_OFF) {
self->device->device->SetFrameGeometry(geometry, false, self->channel);
if (self->quad_mode) {
for (int i = 1; i < 4; i++) {
self->device->device->SetFrameGeometry(
geometry, false, (NTV2Channel)(self->channel + i));
}
}
} else {
const NTV2FrameGeometry vanc_geometry =
::GetVANCFrameGeometry(geometry, self->vanc_mode);
self->device->device->SetFrameGeometry(vanc_geometry, false, self->channel);
if (self->quad_mode) {
for (int i = 1; i < 4; i++) {
self->device->device->SetFrameGeometry(
vanc_geometry, false, (NTV2Channel)(self->channel + i));
}
}
}
CNTV2SignalRouter router;
// If any channels are currently running, initialize the router with the
// existing routing setup. Otherwise overwrite the whole routing table.
{
bool have_channels_running = false;
for (NTV2Channel c = ::NTV2_CHANNEL1; c < NTV2_MAX_NUM_CHANNELS;
c = (NTV2Channel)(c + 1)) {
AUTOCIRCULATE_STATUS ac_status;
if (c == self->channel) continue;
if (self->device->device->AutoCirculateGetStatus(c, ac_status) &&
!ac_status.IsStopped()) {
have_channels_running = true;
break;
}
}
if (have_channels_running) self->device->device->GetRouting(router);
}
// Need to remove old routes for the output and framebuffer we're going to
// use
NTV2ActualConnections connections = router.GetConnections();
if (self->quad_mode) {
if (self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 &&
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4) {
// Need to disconnect the 4 inputs corresponding to this channel from
// their framebuffers/muxers, and muxers from their framebuffers
for (auto iter = connections.begin(); iter != connections.end(); iter++) {
if (iter->first == NTV2_XptFrameBuffer1Input ||
iter->first == NTV2_XptFrameBuffer1BInput ||
iter->first == NTV2_XptFrameBuffer2Input ||
iter->first == NTV2_XptFrameBuffer2BInput ||
iter->second == NTV2_Xpt425Mux1AYUV ||
iter->second == NTV2_Xpt425Mux1BYUV ||
iter->second == NTV2_Xpt425Mux2AYUV ||
iter->second == NTV2_Xpt425Mux2BYUV ||
iter->first == NTV2_Xpt425Mux1AInput ||
iter->first == NTV2_Xpt425Mux1BInput ||
iter->first == NTV2_Xpt425Mux2AInput ||
iter->first == NTV2_Xpt425Mux2BInput ||
iter->second == NTV2_XptHDMIIn1 ||
iter->second == NTV2_XptHDMIIn1Q2 ||
iter->second == NTV2_XptHDMIIn1Q3 ||
iter->second == NTV2_XptHDMIIn1Q4)
router.RemoveConnection(iter->first, iter->second);
}
} else if (self->channel == NTV2_CHANNEL1) {
for (auto iter = connections.begin(); iter != connections.end(); iter++) {
if (iter->first == NTV2_XptFrameBuffer1Input ||
iter->first == NTV2_XptFrameBuffer1BInput ||
iter->first == NTV2_XptFrameBuffer1DS2Input ||
iter->first == NTV2_XptFrameBuffer2Input ||
iter->first == NTV2_XptFrameBuffer2BInput ||
iter->first == NTV2_XptFrameBuffer2DS2Input ||
iter->second == NTV2_Xpt425Mux1AYUV ||
iter->second == NTV2_Xpt425Mux1BYUV ||
iter->second == NTV2_Xpt425Mux2AYUV ||
iter->second == NTV2_Xpt425Mux2BYUV ||
iter->first == NTV2_Xpt425Mux1AInput ||
iter->first == NTV2_Xpt425Mux1BInput ||
iter->first == NTV2_Xpt425Mux2AInput ||
iter->first == NTV2_Xpt425Mux2BInput ||
iter->second == NTV2_XptSDIIn1 || iter->second == NTV2_XptSDIIn2 ||
iter->second == NTV2_XptSDIIn3 || iter->second == NTV2_XptSDIIn4 ||
iter->second == NTV2_XptSDIIn1DS2 ||
iter->second == NTV2_XptSDIIn2DS2 ||
iter->first == NTV2_XptFrameBuffer1Input ||
iter->first == NTV2_XptFrameBuffer2Input ||
iter->first == NTV2_XptFrameBuffer3Input ||
iter->first == NTV2_XptFrameBuffer4Input)
router.RemoveConnection(iter->first, iter->second);
}
} else if (self->channel == NTV2_CHANNEL5) {
for (auto iter = connections.begin(); iter != connections.end(); iter++) {
if (iter->first == NTV2_XptFrameBuffer5Input ||
iter->first == NTV2_XptFrameBuffer5BInput ||
iter->first == NTV2_XptFrameBuffer5DS2Input ||
iter->first == NTV2_XptFrameBuffer6Input ||
iter->first == NTV2_XptFrameBuffer6BInput ||
iter->first == NTV2_XptFrameBuffer6DS2Input ||
iter->second == NTV2_Xpt425Mux3AYUV ||
iter->second == NTV2_Xpt425Mux3BYUV ||
iter->second == NTV2_Xpt425Mux4AYUV ||
iter->second == NTV2_Xpt425Mux4BYUV ||
iter->first == NTV2_Xpt425Mux3AInput ||
iter->first == NTV2_Xpt425Mux3BInput ||
iter->first == NTV2_Xpt425Mux4AInput ||
iter->first == NTV2_Xpt425Mux4BInput ||
iter->second == NTV2_XptSDIIn5 || iter->second == NTV2_XptSDIIn6 ||
iter->second == NTV2_XptSDIIn7 || iter->second == NTV2_XptSDIIn8 ||
iter->second == NTV2_XptSDIIn5DS2 ||
iter->second == NTV2_XptSDIIn6DS2 ||
iter->first == NTV2_XptFrameBuffer5Input ||
iter->first == NTV2_XptFrameBuffer6Input ||
iter->first == NTV2_XptFrameBuffer7Input ||
iter->first == NTV2_XptFrameBuffer8Input)
router.RemoveConnection(iter->first, iter->second);
}
} else {
g_assert_not_reached();
}
} else {
// This also removes all connections for any previous quad mode on the
// corresponding channels.
NTV2OutputCrosspointID quad_input_source_ids[10];
if (input_source_id == NTV2_XptSDIIn1 ||
input_source_id == NTV2_XptSDIIn2 ||
input_source_id == NTV2_XptSDIIn3 ||
input_source_id == NTV2_XptSDIIn4) {
if (had_quad_enabled || had_quad_quad_enabled) {
quad_input_source_ids[0] = NTV2_XptSDIIn1;
quad_input_source_ids[1] = NTV2_XptSDIIn2;
quad_input_source_ids[2] = NTV2_XptSDIIn3;
quad_input_source_ids[3] = NTV2_XptSDIIn4;
quad_input_source_ids[4] = NTV2_XptSDIIn1DS2;
quad_input_source_ids[5] = NTV2_XptSDIIn2DS2;
quad_input_source_ids[6] = NTV2_Xpt425Mux1AYUV;
quad_input_source_ids[7] = NTV2_Xpt425Mux1BYUV;
quad_input_source_ids[8] = NTV2_Xpt425Mux2AYUV;
quad_input_source_ids[9] = NTV2_Xpt425Mux2BYUV;
}
} else if (input_source_id == NTV2_XptSDIIn5 ||
input_source_id == NTV2_XptSDIIn6 ||
input_source_id == NTV2_XptSDIIn7 ||
input_source_id == NTV2_XptSDIIn8) {
if (had_quad_enabled || had_quad_quad_enabled) {
quad_input_source_ids[0] = NTV2_XptSDIIn5;
quad_input_source_ids[1] = NTV2_XptSDIIn6;
quad_input_source_ids[2] = NTV2_XptSDIIn7;
quad_input_source_ids[3] = NTV2_XptSDIIn8;
quad_input_source_ids[4] = NTV2_XptSDIIn5DS2;
quad_input_source_ids[5] = NTV2_XptSDIIn6DS2;
quad_input_source_ids[6] = NTV2_Xpt425Mux3AYUV;
quad_input_source_ids[7] = NTV2_Xpt425Mux3BYUV;
quad_input_source_ids[8] = NTV2_Xpt425Mux4AYUV;
quad_input_source_ids[9] = NTV2_Xpt425Mux4BYUV;
}
} else {
g_assert_not_reached();
}
for (auto iter = connections.begin(); iter != connections.end(); iter++) {
if (had_quad_enabled || had_quad_quad_enabled) {
for (auto quad_input_source_id : quad_input_source_ids) {
if (iter->second == quad_input_source_id)
router.RemoveConnection(iter->first, iter->second);
}
} else {
if (iter->first == framebuffer_id || iter->second == input_source_id)
router.RemoveConnection(iter->first, iter->second);
}
}
}
if (self->quad_mode) {
if (self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 &&
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4) {
input_source_id = NTV2_Xpt425Mux1AYUV;
} else if (self->sdi_mode == GST_AJA_SDI_MODE_QUAD_LINK_TSI &&
!NTV2_IS_QUAD_QUAD_HFR_VIDEO_FORMAT(self->video_format) &&
!NTV2_IS_QUAD_QUAD_FORMAT(self->video_format)) {
if (self->channel == NTV2_CHANNEL1)
input_source_id = NTV2_Xpt425Mux1AYUV;
else if (self->channel == NTV2_CHANNEL5)
input_source_id = NTV2_Xpt425Mux3AYUV;
else
g_assert_not_reached();
}
}
GST_DEBUG_OBJECT(self, "Creating connection %d - %d", framebuffer_id,
input_source_id);
router.AddConnection(framebuffer_id, input_source_id);
if (self->quad_mode) {
if (self->input_source >= GST_AJA_INPUT_SOURCE_HDMI1 &&
self->input_source <= GST_AJA_INPUT_SOURCE_HDMI4) {
router.AddConnection(NTV2_XptFrameBuffer1BInput, NTV2_Xpt425Mux1BYUV);
router.AddConnection(NTV2_XptFrameBuffer2Input, NTV2_Xpt425Mux2AYUV);
router.AddConnection(NTV2_XptFrameBuffer2BInput, NTV2_Xpt425Mux2BYUV);
router.AddConnection(NTV2_Xpt425Mux1AInput, NTV2_XptHDMIIn1);
router.AddConnection(NTV2_Xpt425Mux1BInput, NTV2_XptHDMIIn1Q2);
router.AddConnection(NTV2_Xpt425Mux2AInput, NTV2_XptHDMIIn1Q3);
router.AddConnection(NTV2_Xpt425Mux2BInput, NTV2_XptHDMIIn1Q4);
} else {
if (self->sdi_mode == GST_AJA_SDI_MODE_QUAD_LINK_TSI) {
if (NTV2_IS_QUAD_QUAD_HFR_VIDEO_FORMAT(self->video_format)) {
if (self->channel == NTV2_CHANNEL1) {
router.AddConnection(NTV2_XptFrameBuffer1DS2Input, NTV2_XptSDIIn2);
router.AddConnection(NTV2_XptFrameBuffer2Input, NTV2_XptSDIIn3);
router.AddConnection(NTV2_XptFrameBuffer2DS2Input, NTV2_XptSDIIn4);
} else if (self->channel == NTV2_CHANNEL5) {
router.AddConnection(NTV2_XptFrameBuffer5DS2Input, NTV2_XptSDIIn6);
router.AddConnection(NTV2_XptFrameBuffer5Input, NTV2_XptSDIIn7);
router.AddConnection(NTV2_XptFrameBuffer6DS2Input, NTV2_XptSDIIn8);
} else {
g_assert_not_reached();
}
} else if (NTV2_IS_QUAD_QUAD_FORMAT(self->video_format)) {
if (self->channel == NTV2_CHANNEL1) {
router.AddConnection(NTV2_XptFrameBuffer1DS2Input,
NTV2_XptSDIIn1DS2);
router.AddConnection(NTV2_XptFrameBuffer2Input, NTV2_XptSDIIn2);
router.AddConnection(NTV2_XptFrameBuffer2DS2Input,
NTV2_XptSDIIn2DS2);
} else if (self->channel == NTV2_CHANNEL5) {
router.AddConnection(NTV2_XptFrameBuffer5DS2Input,
NTV2_XptSDIIn5DS2);
router.AddConnection(NTV2_XptFrameBuffer5Input, NTV2_XptSDIIn6);
router.AddConnection(NTV2_XptFrameBuffer6DS2Input,
NTV2_XptSDIIn6DS2);
} else {
g_assert_not_reached();
}
// FIXME: Need special handling of NTV2_IS_4K_HFR_VIDEO_FORMAT for
// TSI?
} else {
if (self->channel == NTV2_CHANNEL1) {
router.AddConnection(NTV2_XptFrameBuffer1BInput,
NTV2_Xpt425Mux1BYUV);
router.AddConnection(NTV2_XptFrameBuffer2Input,
NTV2_Xpt425Mux2AYUV);
router.AddConnection(NTV2_XptFrameBuffer2BInput,
NTV2_Xpt425Mux2BYUV);
router.AddConnection(NTV2_Xpt425Mux1AInput, NTV2_XptSDIIn1);
router.AddConnection(NTV2_Xpt425Mux1BInput, NTV2_XptSDIIn2);
router.AddConnection(NTV2_Xpt425Mux2AInput, NTV2_XptSDIIn3);
router.AddConnection(NTV2_Xpt425Mux2BInput, NTV2_XptSDIIn4);
} else if (self->channel == NTV2_CHANNEL5) {
router.AddConnection(NTV2_XptFrameBuffer5BInput,
NTV2_Xpt425Mux3BYUV);
router.AddConnection(NTV2_XptFrameBuffer6Input,
NTV2_Xpt425Mux4AYUV);
router.AddConnection(NTV2_XptFrameBuffer6BInput,
NTV2_Xpt425Mux4BYUV);
router.AddConnection(NTV2_Xpt425Mux3AInput, NTV2_XptSDIIn5);
router.AddConnection(NTV2_Xpt425Mux3BInput, NTV2_XptSDIIn6);
router.AddConnection(NTV2_Xpt425Mux4AInput, NTV2_XptSDIIn7);
router.AddConnection(NTV2_Xpt425Mux4BInput, NTV2_XptSDIIn8);
} else {
g_assert_not_reached();
}
}
} else {
if (self->channel == NTV2_CHANNEL1) {
router.AddConnection(NTV2_XptFrameBuffer2Input, NTV2_XptSDIIn2);
router.AddConnection(NTV2_XptFrameBuffer3Input, NTV2_XptSDIIn3);
router.AddConnection(NTV2_XptFrameBuffer4Input, NTV2_XptSDIIn4);
} else if (self->channel == NTV2_CHANNEL5) {
router.AddConnection(NTV2_XptFrameBuffer6Input, NTV2_XptSDIIn6);
router.AddConnection(NTV2_XptFrameBuffer7Input, NTV2_XptSDIIn7);
router.AddConnection(NTV2_XptFrameBuffer8Input, NTV2_XptSDIIn8);
} else {
g_assert_not_reached();
}
}
}
}
{
std::stringstream os;
CNTV2SignalRouter oldRouter;
self->device->device->GetRouting(oldRouter);
oldRouter.Print(os);
GST_DEBUG_OBJECT(self, "Previous routing:\n%s", os.str().c_str());
}
self->device->device->ApplySignalRoute(router, true);
{
std::stringstream os;
CNTV2SignalRouter currentRouter;
self->device->device->GetRouting(currentRouter);
currentRouter.Print(os);
GST_DEBUG_OBJECT(self, "New routing:\n%s", os.str().c_str());
}
switch (self->audio_system_setting) {
case GST_AJA_AUDIO_SYSTEM_1:
self->audio_system = ::NTV2_AUDIOSYSTEM_1;
break;
case GST_AJA_AUDIO_SYSTEM_2:
self->audio_system = ::NTV2_AUDIOSYSTEM_2;
break;
case GST_AJA_AUDIO_SYSTEM_3:
self->audio_system = ::NTV2_AUDIOSYSTEM_3;
break;
case GST_AJA_AUDIO_SYSTEM_4:
self->audio_system = ::NTV2_AUDIOSYSTEM_4;
break;
case GST_AJA_AUDIO_SYSTEM_5:
self->audio_system = ::NTV2_AUDIOSYSTEM_5;
break;
case GST_AJA_AUDIO_SYSTEM_6:
self->audio_system = ::NTV2_AUDIOSYSTEM_6;
break;
case GST_AJA_AUDIO_SYSTEM_7:
self->audio_system = ::NTV2_AUDIOSYSTEM_7;
break;
case GST_AJA_AUDIO_SYSTEM_8:
self->audio_system = ::NTV2_AUDIOSYSTEM_8;
break;
case GST_AJA_AUDIO_SYSTEM_AUTO:
self->audio_system = ::NTV2_AUDIOSYSTEM_1;
if (::NTV2DeviceGetNumAudioSystems(self->device_id) > 1)
self->audio_system = ::NTV2ChannelToAudioSystem(self->channel);
if (!::NTV2DeviceCanDoFrameStore1Display(self->device_id))
self->audio_system = ::NTV2_AUDIOSYSTEM_1;
break;
default:
g_assert_not_reached();
break;
}
GST_DEBUG_OBJECT(self, "Using audio system %d", self->audio_system);
NTV2AudioSource audio_source;
switch (self->audio_source) {
case GST_AJA_AUDIO_SOURCE_EMBEDDED:
audio_source = ::NTV2_AUDIO_EMBEDDED;
break;
case GST_AJA_AUDIO_SOURCE_AES:
audio_source = ::NTV2_AUDIO_AES;
break;
case GST_AJA_AUDIO_SOURCE_ANALOG:
audio_source = ::NTV2_AUDIO_ANALOG;
break;
case GST_AJA_AUDIO_SOURCE_HDMI:
audio_source = ::NTV2_AUDIO_HDMI;
break;
case GST_AJA_AUDIO_SOURCE_MIC:
audio_source = ::NTV2_AUDIO_MIC;
break;
default:
g_assert_not_reached();
break;
}
NTV2EmbeddedAudioInput embedded_audio_input;
switch (self->embedded_audio_input) {
case GST_AJA_EMBEDDED_AUDIO_INPUT_AUTO:
embedded_audio_input =
::NTV2InputSourceToEmbeddedAudioInput(input_source);
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO1:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_1;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO2:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_2;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO3:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_3;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO4:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_4;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO5:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_5;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO6:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_6;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO7:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_7;
break;
case GST_AJA_EMBEDDED_AUDIO_INPUT_VIDEO8:
embedded_audio_input = ::NTV2_EMBEDDED_AUDIO_INPUT_VIDEO_8;
break;
default:
g_assert_not_reached();
break;
}
self->device->device->SetAudioSystemInputSource(
self->audio_system, audio_source, embedded_audio_input);
self->configured_audio_channels =
::NTV2DeviceGetMaxAudioChannels(self->device_id);
self->device->device->SetNumberAudioChannels(self->configured_audio_channels,
self->audio_system);
self->device->device->SetAudioRate(::NTV2_AUDIO_48K, self->audio_system);
self->device->device->SetAudioBufferSize(::NTV2_AUDIO_BUFFER_BIG,
self->audio_system);
self->device->device->SetAudioLoopBack(::NTV2_AUDIO_LOOPBACK_OFF,
self->audio_system);
self->device->device->SetEmbeddedAudioClock(
::NTV2_EMBEDDED_AUDIO_CLOCK_VIDEO_INPUT, self->audio_system);
NTV2ReferenceSource reference_source;
switch (self->reference_source) {
case GST_AJA_REFERENCE_SOURCE_AUTO:
reference_source = ::NTV2InputSourceToReferenceSource(input_source);
break;
case GST_AJA_REFERENCE_SOURCE_EXTERNAL:
reference_source = ::NTV2_REFERENCE_EXTERNAL;
break;
case GST_AJA_REFERENCE_SOURCE_FREERUN:
reference_source = ::NTV2_REFERENCE_FREERUN;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_1:
reference_source = ::NTV2_REFERENCE_INPUT1;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_2:
reference_source = ::NTV2_REFERENCE_INPUT2;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_3:
reference_source = ::NTV2_REFERENCE_INPUT3;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_4:
reference_source = ::NTV2_REFERENCE_INPUT4;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_5:
reference_source = ::NTV2_REFERENCE_INPUT5;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_6:
reference_source = ::NTV2_REFERENCE_INPUT6;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_7:
reference_source = ::NTV2_REFERENCE_INPUT7;
break;
case GST_AJA_REFERENCE_SOURCE_INPUT_8:
reference_source = ::NTV2_REFERENCE_INPUT8;
break;
default:
g_assert_not_reached();
break;
}
GST_DEBUG_OBJECT(self, "Configuring reference source %d",
(int)reference_source);
self->device->device->SetReference(reference_source);
self->device->device->SetLTCInputEnable(true);
self->device->device->SetRP188SourceFilter(self->channel, 0xff);
guint video_buffer_size = ::GetVideoActiveSize(
self->video_format, ::NTV2_FBF_10BIT_YCBCR, self->vanc_mode);
self->buffer_pool = gst_buffer_pool_new();
GstStructure *config = gst_buffer_pool_get_config(self->buffer_pool);
gst_buffer_pool_config_set_params(config, NULL, video_buffer_size,
2 * self->queue_size, 0);
gst_buffer_pool_config_set_allocator(config, self->allocator, NULL);
gst_buffer_pool_set_config(self->buffer_pool, config);
gst_buffer_pool_set_active(self->buffer_pool, TRUE);
guint audio_buffer_size = 401 * 1024;
self->audio_buffer_pool = gst_buffer_pool_new();
config = gst_buffer_pool_get_config(self->audio_buffer_pool);
gst_buffer_pool_config_set_params(config, NULL, audio_buffer_size,
2 * self->queue_size, 0);
gst_buffer_pool_config_set_allocator(config, self->allocator, NULL);
gst_buffer_pool_set_config(self->audio_buffer_pool, config);
gst_buffer_pool_set_active(self->audio_buffer_pool, TRUE);
guint anc_buffer_size = 8 * 1024;
if (self->vanc_mode == ::NTV2_VANCMODE_OFF &&
::NTV2DeviceCanDoCustomAnc(self->device_id)) {
self->anc_buffer_pool = gst_buffer_pool_new();
config = gst_buffer_pool_get_config(self->anc_buffer_pool);
gst_buffer_pool_config_set_params(
config, NULL, anc_buffer_size,
(self->configured_info.interlace_mode ==
GST_VIDEO_INTERLACE_MODE_PROGRESSIVE
? 1
: 2) *
self->queue_size,
0);
gst_buffer_pool_config_set_allocator(config, self->allocator, NULL);
gst_buffer_pool_set_config(self->anc_buffer_pool, config);
gst_buffer_pool_set_active(self->anc_buffer_pool, TRUE);
}
gst_element_post_message(GST_ELEMENT_CAST(self),
gst_message_new_latency(GST_OBJECT_CAST(self)));
return TRUE;
}
static gboolean gst_aja_src_start(GstAjaSrc *self) {
GST_DEBUG_OBJECT(self, "Starting");
self->video_format = NTV2_FORMAT_UNKNOWN;
self->signal = FALSE;
self->capture_thread = new AJAThread();
self->capture_thread->Attach(capture_thread_func, self);
self->capture_thread->SetPriority(AJA_ThreadPriority_High);
self->capture_thread->Start();
g_mutex_lock(&self->queue_lock);
self->shutdown = FALSE;
self->playing = FALSE;
self->flushing = FALSE;
g_cond_signal(&self->queue_cond);
g_mutex_unlock(&self->queue_lock);
return TRUE;
}
static gboolean gst_aja_src_stop(GstAjaSrc *self) {
QueueItem *item;
GST_DEBUG_OBJECT(self, "Stopping");
g_mutex_lock(&self->queue_lock);
self->shutdown = TRUE;
self->flushing = TRUE;
self->playing = FALSE;
g_cond_signal(&self->queue_cond);
g_mutex_unlock(&self->queue_lock);
if (self->capture_thread) {
self->capture_thread->Stop();
delete self->capture_thread;
self->capture_thread = NULL;
}
GST_OBJECT_LOCK(self);
memset(&self->current_info, 0, sizeof(self->current_info));
memset(&self->configured_info, 0, sizeof(self->configured_info));
self->configured_audio_channels = 0;
GST_OBJECT_UNLOCK(self);
while ((item = (QueueItem *)gst_queue_array_pop_head_struct(self->queue))) {
queue_item_clear(item);
}
self->queue_num_frames = 0;
if (self->buffer_pool) {
gst_buffer_pool_set_active(self->buffer_pool, FALSE);
gst_clear_object(&self->buffer_pool);
}
if (self->audio_buffer_pool) {
gst_buffer_pool_set_active(self->audio_buffer_pool, FALSE);
gst_clear_object(&self->audio_buffer_pool);
}
if (self->anc_buffer_pool) {
gst_buffer_pool_set_active(self->anc_buffer_pool, FALSE);
gst_clear_object(&self->anc_buffer_pool);
}
self->video_format = NTV2_FORMAT_UNKNOWN;
if (self->signal) {
self->signal = FALSE;
g_object_notify(G_OBJECT(self), "signal");
}
GST_DEBUG_OBJECT(self, "Stopped");
return TRUE;
}
static GstStateChangeReturn gst_aja_src_change_state(
GstElement *element, GstStateChange transition) {
GstAjaSrc *self = GST_AJA_SRC(element);
GstStateChangeReturn ret;
switch (transition) {
case GST_STATE_CHANGE_NULL_TO_READY:
if (!gst_aja_src_open(self)) return GST_STATE_CHANGE_FAILURE;
break;
case GST_STATE_CHANGE_READY_TO_PAUSED:
if (!gst_aja_src_start(self)) return GST_STATE_CHANGE_FAILURE;
break;
case GST_STATE_CHANGE_PAUSED_TO_PLAYING:
break;
default:
break;
}
ret = GST_ELEMENT_CLASS(parent_class)->change_state(element, transition);
if (ret == GST_STATE_CHANGE_FAILURE) return ret;
switch (transition) {
case GST_STATE_CHANGE_PLAYING_TO_PAUSED:
g_mutex_lock(&self->queue_lock);
self->playing = FALSE;
g_cond_signal(&self->queue_cond);
g_mutex_unlock(&self->queue_lock);
break;
case GST_STATE_CHANGE_PAUSED_TO_PLAYING:
g_mutex_lock(&self->queue_lock);
self->playing = TRUE;
g_cond_signal(&self->queue_cond);
g_mutex_unlock(&self->queue_lock);
break;
case GST_STATE_CHANGE_PAUSED_TO_READY:
if (!gst_aja_src_stop(self)) return GST_STATE_CHANGE_FAILURE;
break;
case GST_STATE_CHANGE_READY_TO_NULL:
if (!gst_aja_src_close(self)) return GST_STATE_CHANGE_FAILURE;
break;
default:
break;
}
return ret;
}
static GstCaps *gst_aja_src_get_caps(GstBaseSrc *bsrc, GstCaps *filter) {
GstAjaSrc *self = GST_AJA_SRC(bsrc);
GstCaps *caps;
if (self->device) {
caps = gst_ntv2_supported_caps(self->device_id);
} else {
caps = gst_pad_get_pad_template_caps(GST_BASE_SRC_PAD(self));
}
// Intersect with the configured video format if any to constrain the caps
// further.
if (self->video_format_setting != GST_AJA_VIDEO_FORMAT_AUTO) {
GstCaps *configured_caps =
gst_aja_video_format_to_caps(self->video_format_setting);
if (configured_caps) {
GstCaps *tmp;
// Remove pixel-aspect-ratio from the configured caps to allow for both
// widescreen and non-widescreen PAL/NTSC. It's added back by the
// template caps above when intersecting.
guint n = gst_caps_get_size(configured_caps);
for (guint i = 0; i < n; i++) {
GstStructure *s = gst_caps_get_structure(configured_caps, i);
gst_structure_remove_fields(s, "pixel-aspect-ratio", NULL);
}
tmp = gst_caps_intersect(caps, configured_caps);
gst_caps_unref(caps);
gst_caps_unref(configured_caps);
caps = tmp;
}
}
if (filter) {
GstCaps *tmp =
gst_caps_intersect_full(filter, caps, GST_CAPS_INTERSECT_FIRST);
gst_caps_unref(caps);
caps = tmp;
}
return caps;
}
static gboolean gst_aja_src_query(GstBaseSrc *bsrc, GstQuery *query) {
GstAjaSrc *self = GST_AJA_SRC(bsrc);
gboolean ret = TRUE;
switch (GST_QUERY_TYPE(query)) {
case GST_QUERY_LATENCY: {
if (self->current_info.finfo &&
self->current_info.finfo->format != GST_VIDEO_FORMAT_UNKNOWN) {
GstClockTime min, max;
min = gst_util_uint64_scale_ceil(
GST_SECOND, 3 * self->current_info.fps_d, self->current_info.fps_n);
max = self->queue_size * min;
gst_query_set_latency(query, TRUE, min, max);
ret = TRUE;
} else {
ret = FALSE;
}
return ret;
}
default:
return GST_BASE_SRC_CLASS(parent_class)->query(bsrc, query);
break;
}
}
static gboolean gst_aja_src_unlock(GstBaseSrc *bsrc) {
GstAjaSrc *self = GST_AJA_SRC(bsrc);
g_mutex_lock(&self->queue_lock);
self->flushing = TRUE;
g_cond_signal(&self->queue_cond);
g_mutex_unlock(&self->queue_lock);
return TRUE;
}
static gboolean gst_aja_src_unlock_stop(GstBaseSrc *bsrc) {
GstAjaSrc *self = GST_AJA_SRC(bsrc);
g_mutex_lock(&self->queue_lock);
self->flushing = FALSE;
g_mutex_unlock(&self->queue_lock);
return TRUE;
}
static GstFlowReturn gst_aja_src_create(GstPushSrc *psrc, GstBuffer **buffer) {
GstAjaSrc *self = GST_AJA_SRC(psrc);
GstFlowReturn flow_ret = GST_FLOW_OK;
QueueItem item = {
.type = QUEUE_ITEM_TYPE_DUMMY,
};
next_item:
item.type = QUEUE_ITEM_TYPE_DUMMY;
g_mutex_lock(&self->queue_lock);
while (gst_queue_array_is_empty(self->queue) && !self->flushing) {
g_cond_wait(&self->queue_cond, &self->queue_lock);
}
if (self->flushing) {
g_mutex_unlock(&self->queue_lock);
GST_DEBUG_OBJECT(self, "Flushing");
return GST_FLOW_FLUSHING;
}
item = *(QueueItem *)gst_queue_array_pop_head_struct(self->queue);
if (item.type == QUEUE_ITEM_TYPE_FRAME) {
self->queue_num_frames -= 1;
}
g_mutex_unlock(&self->queue_lock);
switch (item.type) {
case QUEUE_ITEM_TYPE_DUMMY:
queue_item_clear(&item);
goto next_item;
case QUEUE_ITEM_TYPE_SIGNAL_CHANGE:
// These are already only produced when signal status is changing
if (item.signal_change.have_signal) {
GST_ELEMENT_INFO(GST_ELEMENT(self), RESOURCE, READ,
("Signal recovered"), ("Input source detected"));
self->signal = TRUE;
g_object_notify(G_OBJECT(self), "signal");
} else if (!item.signal_change.have_signal) {
if (item.signal_change.detected_format != ::NTV2_FORMAT_UNKNOWN) {
std::string format_string =
NTV2VideoFormatToString(item.signal_change.detected_format);
GST_ELEMENT_WARNING_WITH_DETAILS(
GST_ELEMENT(self), RESOURCE, READ, ("Signal lost"),
("Input source with different mode %s was detected",
format_string.c_str()),
("detected-format", G_TYPE_STRING, format_string.c_str(), "vpid",
G_TYPE_UINT, item.signal_change.vpid, NULL));
} else {
GST_ELEMENT_WARNING(GST_ELEMENT(self), RESOURCE, READ,
("Signal lost"),
("No input source was detected"));
}
self->signal = FALSE;
g_object_notify(G_OBJECT(self), "signal");
}
queue_item_clear(&item);
goto next_item;
case QUEUE_ITEM_TYPE_ERROR:
GST_ERROR_OBJECT(self, "Stopping because of error on capture thread");
gst_element_post_message(GST_ELEMENT(self),
(GstMessage *)g_steal_pointer(&item.error.msg));
queue_item_clear(&item);
return GST_FLOW_ERROR;
case QUEUE_ITEM_TYPE_FRAMES_DROPPED:
GST_WARNING_OBJECT(
self, "Dropped frames from %" GST_TIME_FORMAT " to %" GST_TIME_FORMAT,
GST_TIME_ARGS(item.frames_dropped.timestamp_start),
GST_TIME_ARGS(item.frames_dropped.timestamp_end));
gst_element_post_message(
GST_ELEMENT(self),
gst_message_new_qos(GST_OBJECT_CAST(self), TRUE, GST_CLOCK_TIME_NONE,
GST_CLOCK_TIME_NONE,
item.frames_dropped.timestamp_start,
item.frames_dropped.timestamp_end -
item.frames_dropped.timestamp_start));
queue_item_clear(&item);
goto next_item;
case QUEUE_ITEM_TYPE_FRAME:
// fall through below
break;
}
g_assert(item.type == QUEUE_ITEM_TYPE_FRAME);
if (!self->signal) {
self->signal = TRUE;
g_object_notify(G_OBJECT(self), "signal");
}
*buffer = (GstBuffer *)g_steal_pointer(&item.frame.video_buffer);
gst_buffer_add_aja_audio_meta(*buffer, item.frame.audio_buffer);
gst_clear_buffer(&item.frame.audio_buffer);
if (item.frame.tc.IsValid()) {
TimecodeFormat tc_format = ::kTCFormatUnknown;
GstVideoTimeCodeFlags flags = GST_VIDEO_TIME_CODE_FLAGS_NONE;
if (self->configured_info.fps_n == 24 && self->configured_info.fps_d == 1) {
tc_format = kTCFormat24fps;
} else if (self->configured_info.fps_n == 25 &&
self->configured_info.fps_d == 1) {
tc_format = kTCFormat25fps;
} else if (self->configured_info.fps_n == 30 &&
self->configured_info.fps_d == 1) {
tc_format = kTCFormat30fps;
} else if (self->configured_info.fps_n == 30000 &&
self->configured_info.fps_d == 1001) {
tc_format = kTCFormat30fpsDF;
flags =
(GstVideoTimeCodeFlags)(flags | GST_VIDEO_TIME_CODE_FLAGS_DROP_FRAME);
} else if (self->configured_info.fps_n == 48 &&
self->configured_info.fps_d == 1) {
tc_format = kTCFormat48fps;
} else if (self->configured_info.fps_n == 50 &&
self->configured_info.fps_d == 1) {
tc_format = kTCFormat50fps;
} else if (self->configured_info.fps_n == 60 &&
self->configured_info.fps_d == 1) {
tc_format = kTCFormat60fps;
} else if (self->configured_info.fps_n == 60000 &&
self->configured_info.fps_d == 1001) {
tc_format = kTCFormat60fpsDF;
flags =
(GstVideoTimeCodeFlags)(flags | GST_VIDEO_TIME_CODE_FLAGS_DROP_FRAME);
}
if (self->configured_info.interlace_mode !=
GST_VIDEO_INTERLACE_MODE_PROGRESSIVE)
flags =
(GstVideoTimeCodeFlags)(flags | GST_VIDEO_TIME_CODE_FLAGS_INTERLACED);
CRP188 rp188(item.frame.tc, tc_format);
{
std::stringstream os;
os << rp188;
GST_TRACE_OBJECT(self, "Adding timecode %s", os.str().c_str());
}
guint hours, minutes, seconds, frames;
rp188.GetRP188Hrs(hours);
rp188.GetRP188Mins(minutes);
rp188.GetRP188Secs(seconds);
rp188.GetRP188Frms(frames);
GstVideoTimeCode tc;
gst_video_time_code_init(&tc, self->configured_info.fps_n,
self->configured_info.fps_d, NULL, flags, hours,
minutes, seconds, frames, 0);
gst_buffer_add_video_time_code_meta(*buffer, &tc);
}
AJAAncillaryList anc_packets;
if (item.frame.anc_buffer) {
GstMapInfo map = GST_MAP_INFO_INIT;
GstMapInfo map2 = GST_MAP_INFO_INIT;
gst_buffer_map(item.frame.anc_buffer, &map, GST_MAP_READ);
if (item.frame.anc_buffer2)
gst_buffer_map(item.frame.anc_buffer2, &map2, GST_MAP_READ);
NTV2_POINTER ptr1(map.data, map.size);
NTV2_POINTER ptr2(map2.data, map2.size);
AJAAncillaryList::SetFromDeviceAncBuffers(ptr1, ptr2, anc_packets);
if (item.frame.anc_buffer2) gst_buffer_unmap(item.frame.anc_buffer2, &map2);
gst_buffer_unmap(item.frame.anc_buffer, &map);
} else if (self->vanc_mode != ::NTV2_VANCMODE_OFF) {
GstMapInfo map;
NTV2FormatDescriptor format_desc(self->video_format, ::NTV2_FBF_10BIT_YCBCR,
self->vanc_mode);
gst_buffer_map(*buffer, &map, GST_MAP_READ);
NTV2_POINTER ptr(map.data, map.size);
AJAAncillaryList::SetFromVANCData(ptr, format_desc, anc_packets);
gst_buffer_unmap(*buffer, &map);
guint offset =
format_desc.RasterLineToByteOffset(format_desc.GetFirstActiveLine());
guint size = format_desc.GetVisibleRasterBytes();
gst_buffer_resize(*buffer, offset, size);
}
gst_clear_buffer(&item.frame.anc_buffer);
gst_clear_buffer(&item.frame.anc_buffer2);
// Not using CountAncillaryDataWithType(AJAAncillaryDataType_Cea708) etc
// here because for SD it doesn't recognize the packets. It assumes they
// would only be received on AJAAncillaryDataChannel_Y but for SD it is
// actually AJAAncillaryDataChannel_Both.
//
// See AJA SDK support ticket #4844.
guint32 n_vanc_packets = anc_packets.CountAncillaryData();
// Check if we have either CEA608 or CEA708 packets, or both.
bool have_cea608 = false;
bool have_cea708 = false;
for (guint32 i = 0; i < n_vanc_packets; i++) {
AJAAncillaryData *packet = anc_packets.GetAncillaryDataAtIndex(i);
if (packet->GetDID() == AJAAncillaryData_Cea608_Vanc_DID &&
packet->GetSID() == AJAAncillaryData_Cea608_Vanc_SID &&
packet->GetPayloadData() && packet->GetPayloadByteCount() &&
AJA_SUCCESS(packet->ParsePayloadData())) {
GST_TRACE_OBJECT(
self, "Found CEA608 VANC of %" G_GSIZE_FORMAT " bytes at line %u",
packet->GetPayloadByteCount(), packet->GetLocationLineNumber());
have_cea608 = true;
} else if (packet->GetDID() == AJAAncillaryData_CEA708_DID &&
packet->GetSID() == AJAAncillaryData_CEA708_SID &&
packet->GetPayloadData() && packet->GetPayloadByteCount() &&
AJA_SUCCESS(packet->ParsePayloadData())) {
GST_TRACE_OBJECT(
self, "Found CEA708 CDP VANC of %" G_GSIZE_FORMAT " bytes at line %u",
packet->GetPayloadByteCount(), packet->GetLocationLineNumber());
have_cea708 = true;
}
}
// Decide based on the closed-caption-capture-mode property and closed
// caption availability which ones to add as metadata to the output buffer.
bool want_cea608 =
have_cea608 &&
(self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA708_AND_CEA608 ||
self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA608_OR_CEA708 ||
self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA608_ONLY ||
(!have_cea708 &&
self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA708_OR_CEA608));
bool want_cea708 =
have_cea708 &&
(self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA708_AND_CEA608 ||
self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA708_OR_CEA608 ||
self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA708_ONLY ||
(!have_cea608 &&
self->closed_caption_capture_mode ==
GST_AJA_CLOSED_CAPTION_CAPTURE_MODE_CEA608_OR_CEA708));
bool aspect_ratio_flag = false;
bool have_afd_bar = false;
for (guint32 i = 0; i < n_vanc_packets; i++) {
AJAAncillaryData *packet = anc_packets.GetAncillaryDataAtIndex(i);
if (want_cea608 && packet->GetDID() == AJAAncillaryData_Cea608_Vanc_DID &&
packet->GetSID() == AJAAncillaryData_Cea608_Vanc_SID &&
packet->GetPayloadData() && packet->GetPayloadByteCount() &&
AJA_SUCCESS(packet->ParsePayloadData())) {
GST_TRACE_OBJECT(
self, "Adding CEA608 VANC of %" G_GSIZE_FORMAT " bytes at line %u",
packet->GetPayloadByteCount(), packet->GetLocationLineNumber());
gst_buffer_add_video_caption_meta(
*buffer, GST_VIDEO_CAPTION_TYPE_CEA608_S334_1A,
packet->GetPayloadData(), packet->GetPayloadByteCount());
} else if (want_cea708 && packet->GetDID() == AJAAncillaryData_CEA708_DID &&
packet->GetSID() == AJAAncillaryData_CEA708_SID &&
packet->GetPayloadData() && packet->GetPayloadByteCount() &&
AJA_SUCCESS(packet->ParsePayloadData())) {
GST_TRACE_OBJECT(
self,
"Adding CEA708 CDP VANC of %" G_GSIZE_FORMAT " bytes at line %u",
packet->GetPayloadByteCount(), packet->GetLocationLineNumber());
gst_buffer_add_video_caption_meta(
*buffer, GST_VIDEO_CAPTION_TYPE_CEA708_CDP, packet->GetPayloadData(),
packet->GetPayloadByteCount());
} else if (packet->GetDID() == 0x41 && packet->GetSID() == 0x05 &&
packet->GetPayloadData() && packet->GetPayloadByteCount() == 8) {
const guint8 *data = packet->GetPayloadData();
have_afd_bar = true;
aspect_ratio_flag = (data[0] >> 2) & 0x1;
GstVideoAFDValue afd = (GstVideoAFDValue)((data[0] >> 3) & 0xf);
gboolean is_letterbox = ((data[3] >> 4) & 0x3) == 0;
guint16 bar1 = GST_READ_UINT16_BE(&data[4]);
guint16 bar2 = GST_READ_UINT16_BE(&data[6]);
GST_TRACE_OBJECT(self,
"Found AFD/Bar VANC at line %u: AR %u, AFD %u, "
"letterbox %u, bar1 %u, bar2 %u",
packet->GetLocationLineNumber(), aspect_ratio_flag, afd,
is_letterbox, bar1, bar2);
const NTV2Standard standard(
::GetNTV2StandardFromVideoFormat(item.frame.detected_format));
const NTV2SmpteLineNumber smpte_line_num_info =
::GetSmpteLineNumber(standard);
bool field2 =
packet->GetLocationLineNumber() >
smpte_line_num_info.GetLastLine(
smpte_line_num_info.firstFieldTop ? NTV2_FIELD0 : NTV2_FIELD1);
gst_buffer_add_video_afd_meta(*buffer, field2 ? 1 : 0,
GST_VIDEO_AFD_SPEC_SMPTE_ST2016_1, afd);
gst_buffer_add_video_bar_meta(*buffer, field2 ? 1 : 0, is_letterbox, bar1,
bar2);
}
// Don't attach other ANC as ancillary meta if not requested to do so.
if (!self->attach_ancillary_meta) continue;
// Skip non-SMPTE 291M ancillary data
if (packet->GetDataCoding() != AJAAncillaryDataCoding_Digital) continue;
const guint8 *in_data = packet->GetPayloadData();
guint data_count = packet->GetDC();
guint16 line_number = packet->GetLocationLineNumber();
guint16 horiz_offset = packet->GetLocationHorizOffset();
if (!in_data || data_count == 0) {
GST_TRACE_OBJECT(self, "ANC %s (%04x) at (%u,%u) has no payload data",
packet->IDAsString().c_str(), packet->GetDIDSID(),
line_number, horiz_offset);
continue;
}
GST_TRACE_OBJECT(self,
"Adding ANC meta for %s (%04x) at (%u,%u) of size %u",
packet->IDAsString().c_str(), packet->GetDIDSID(),
line_number, horiz_offset, data_count);
GstAncillaryMeta *anc_meta = gst_buffer_add_ancillary_meta(*buffer);
anc_meta->c_not_y_channel = packet->IsChromaChannel();
anc_meta->line = line_number;
anc_meta->offset = horiz_offset;
packet->GeneratePayloadData();
anc_meta->DID = AJAAncillaryData::AddEvenParity(packet->GetDID());
anc_meta->SDID_block_number =
AJAAncillaryData::AddEvenParity(packet->GetSID());
anc_meta->data_count = AJAAncillaryData::AddEvenParity(data_count);
guint16 *data = g_new(guint16, packet->GetDC());
for (guint i = 0; i < data_count; i++) {
data[i] = AJAAncillaryData::AddEvenParity(in_data[i]);
}
anc_meta->data = data;
anc_meta->checksum = packet->Calculate9BitChecksum();
}
bool caps_changed = false;
CNTV2VPID vpid(item.frame.vpid);
if (vpid.IsValid()) {
GstVideoInfo info;
{
std::stringstream os;
vpid.Print(os);
GST_TRACE_OBJECT(self, "Got valid VPID %s", os.str().c_str());
}
if (gst_video_info_from_ntv2_video_format(&info,
item.frame.detected_format)) {
switch (vpid.GetTransferCharacteristics()) {
default:
case NTV2_VPID_TC_SDR_TV:
if (info.height < 720) {
info.colorimetry.transfer = GST_VIDEO_TRANSFER_BT601;
} else {
info.colorimetry.transfer = GST_VIDEO_TRANSFER_BT709;
}
break;
case NTV2_VPID_TC_HLG:
info.colorimetry.transfer = GST_VIDEO_TRANSFER_ARIB_STD_B67;
break;
case NTV2_VPID_TC_PQ:
info.colorimetry.transfer = GST_VIDEO_TRANSFER_SMPTE2084;
break;
}
switch (vpid.GetColorimetry()) {
case NTV2_VPID_Color_Rec709:
info.colorimetry.matrix = GST_VIDEO_COLOR_MATRIX_BT709;
info.colorimetry.primaries = GST_VIDEO_COLOR_PRIMARIES_BT709;
break;
case NTV2_VPID_Color_UHDTV:
info.colorimetry.matrix = GST_VIDEO_COLOR_MATRIX_BT2020;
info.colorimetry.primaries = GST_VIDEO_COLOR_PRIMARIES_BT2020;
break;
default:
// Default handling
break;
}
switch (vpid.GetRGBRange()) {
case NTV2_VPID_Range_Full:
info.colorimetry.range = GST_VIDEO_COLOR_RANGE_0_255;
break;
case NTV2_VPID_Range_Narrow:
info.colorimetry.range = GST_VIDEO_COLOR_RANGE_16_235;
break;
}
if (!have_afd_bar && vpid.GetImageAspect16x9()) aspect_ratio_flag = true;
// Widescreen PAL/NTSC
if (aspect_ratio_flag && info.height == 486) {
info.par_n = 40;
info.par_d = 33;
} else if (aspect_ratio_flag && info.height == 576) {
info.par_n = 16;
info.par_d = 11;
}
if (!gst_pad_has_current_caps(GST_BASE_SRC_PAD(self)) ||
!gst_video_info_is_equal(&info, &self->current_info)) {
self->current_info = info;
caps_changed = true;
}
}
} else {
GstVideoInfo info;
if (gst_video_info_from_ntv2_video_format(&info,
item.frame.detected_format)) {
// Widescreen PAL/NTSC
if (aspect_ratio_flag && info.height == 486) {
info.par_n = 40;
info.par_d = 33;
} else if (aspect_ratio_flag && info.height == 576) {
info.par_n = 16;
info.par_d = 11;
}
if (!gst_pad_has_current_caps(GST_BASE_SRC_PAD(self)) ||
!gst_video_info_is_equal(&info, &self->current_info)) {
self->current_info = info;
caps_changed = true;
}
} else if (!gst_pad_has_current_caps(GST_BASE_SRC_PAD(self))) {
self->current_info = self->configured_info;
// Widescreen PAL/NTSC
if (aspect_ratio_flag && self->current_info.height == 486) {
self->current_info.par_n = 40;
self->current_info.par_d = 33;
} else if (aspect_ratio_flag && self->current_info.height == 576) {
self->current_info.par_n = 16;
self->current_info.par_d = 11;
}
caps_changed = true;
}
}
if (caps_changed) {
GstCaps *caps = gst_video_info_to_caps(&self->current_info);
gst_caps_set_simple(caps, "audio-channels", G_TYPE_INT,
self->configured_audio_channels, NULL);
GST_DEBUG_OBJECT(self, "Configuring caps %" GST_PTR_FORMAT, caps);
gst_base_src_set_caps(GST_BASE_SRC_CAST(self), caps);
gst_caps_unref(caps);
}
if (self->configured_info.interlace_mode !=
GST_VIDEO_INTERLACE_MODE_PROGRESSIVE) {
GST_BUFFER_FLAG_SET(*buffer, GST_VIDEO_BUFFER_FLAG_INTERLACED);
switch (GST_VIDEO_INFO_FIELD_ORDER(&self->configured_info)) {
case GST_VIDEO_FIELD_ORDER_TOP_FIELD_FIRST:
GST_BUFFER_FLAG_SET(*buffer, GST_VIDEO_BUFFER_FLAG_TFF);
default:
break;
}
}
queue_item_clear(&item);
GST_TRACE_OBJECT(self, "Outputting buffer %" GST_PTR_FORMAT, *buffer);
return flow_ret;
}
#define AJA_SRC_ERROR(el, domain, code, text, debug) \
G_STMT_START { \
gchar *__txt = _gst_element_error_printf text; \
gchar *__dbg = _gst_element_error_printf debug; \
GstMessage *__msg; \
GError *__err; \
gchar *__name, *__fmt_dbg; \
if (__txt) GST_WARNING_OBJECT(el, "error: %s", __txt); \
if (__dbg) GST_WARNING_OBJECT(el, "error: %s", __dbg); \
if (!__txt) \
__txt = gst_error_get_message(GST_##domain##_ERROR, \
GST_##domain##_ERROR_##code); \
__err = g_error_new_literal(GST_##domain##_ERROR, \
GST_##domain##_ERROR_##code, __txt); \
__name = gst_object_get_path_string(GST_OBJECT_CAST(el)); \
if (__dbg) \
__fmt_dbg = g_strdup_printf("%s(%d): %s (): %s:\n%s", __FILE__, \
__LINE__, GST_FUNCTION, __name, __dbg); \
else \
__fmt_dbg = g_strdup_printf("%s(%d): %s (): %s", __FILE__, __LINE__, \
GST_FUNCTION, __name); \
g_free(__name); \
g_free(__dbg); \
__msg = gst_message_new_error(GST_OBJECT(el), __err, __fmt_dbg); \
QueueItem item = {.type = QUEUE_ITEM_TYPE_ERROR, .error{.msg = __msg}}; \
gst_queue_array_push_tail_struct(el->queue, &item); \
g_cond_signal(&el->queue_cond); \
} \
G_STMT_END;
static void capture_thread_func(AJAThread *thread, void *data) {
GstAjaSrc *self = GST_AJA_SRC(data);
GstClock *clock = NULL;
AUTOCIRCULATE_TRANSFER transfer;
guint64 frames_dropped_last = G_MAXUINT64;
gboolean have_signal = TRUE, discont = TRUE;
guint iterations_without_frame = 0;
NTV2VideoFormat last_detected_video_format = ::NTV2_FORMAT_UNKNOWN;
if (self->capture_cpu_core != G_MAXUINT) {
cpu_set_t mask;
pthread_t current_thread = pthread_self();
CPU_ZERO(&mask);
CPU_SET(self->capture_cpu_core, &mask);
if (pthread_setaffinity_np(current_thread, sizeof(mask), &mask) != 0) {
GST_ERROR_OBJECT(self,
"Failed to set affinity for current thread to core %u",
self->capture_cpu_core);
}
}
g_mutex_lock(&self->queue_lock);
restart:
GST_DEBUG_OBJECT(self, "Waiting for playing or shutdown");
while (!self->playing && !self->shutdown)
g_cond_wait(&self->queue_cond, &self->queue_lock);
if (self->shutdown) {
GST_DEBUG_OBJECT(self, "Shutting down");
g_mutex_unlock(&self->queue_lock);
return;
}
GST_DEBUG_OBJECT(self, "Starting capture");
g_mutex_unlock(&self->queue_lock);
gst_clear_object(&clock);
clock = gst_element_get_clock(GST_ELEMENT_CAST(self));
frames_dropped_last = G_MAXUINT64;
have_signal = TRUE;
g_mutex_lock(&self->queue_lock);
while (self->playing && !self->shutdown) {
// If we don't have a video format configured, configure the device now
// and potentially auto-detect the video format
if (self->video_format == NTV2_FORMAT_UNKNOWN) {
// Don't keep queue locked while configuring as this might take a while
g_mutex_unlock(&self->queue_lock);
// Make sure to globally lock here as the routing settings and others are
// global shared state
ShmMutexLocker locker;
if (!gst_aja_src_configure(self)) {
g_mutex_lock(&self->queue_lock);
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to configure device"));
goto out;
}
g_mutex_lock(&self->queue_lock);
if (!self->playing || self->shutdown) goto restart;
if (self->video_format == ::NTV2_FORMAT_UNKNOWN) {
GST_DEBUG_OBJECT(self, "No signal, waiting");
frames_dropped_last = G_MAXUINT64;
if (have_signal) {
QueueItem item = {
.type = QUEUE_ITEM_TYPE_SIGNAL_CHANGE,
.signal_change = {.have_signal = FALSE,
.detected_format = ::NTV2_FORMAT_UNKNOWN,
.vpid = 0}};
gst_queue_array_push_tail_struct(self->queue, &item);
g_cond_signal(&self->queue_cond);
have_signal = FALSE;
discont = TRUE;
}
self->device->device->WaitForInputVerticalInterrupt(self->channel);
continue;
}
guint16 start_frame = self->start_frame;
guint16 end_frame = self->end_frame;
// If both are set to the same value, try to find that many unallocated
// frames and use those.
if (start_frame == end_frame) {
gint assigned_start_frame = gst_aja_ntv2_device_find_unallocated_frames(
self->device, self->channel, self->start_frame);
if (assigned_start_frame == -1) {
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to allocate %u frames", start_frame));
goto out;
}
start_frame = assigned_start_frame;
end_frame = start_frame + self->start_frame - 1;
}
GST_DEBUG_OBJECT(
self, "Configuring channel %u with start frame %u and end frame %u",
self->channel, start_frame, end_frame);
if (!self->device->device->AutoCirculateInitForInput(
self->channel, 0, self->audio_system,
(self->rp188 ? AUTOCIRCULATE_WITH_RP188 : 0) |
(self->vanc_mode == ::NTV2_VANCMODE_OFF
? AUTOCIRCULATE_WITH_ANC
: 0),
1, start_frame, end_frame)) {
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to initialize autocirculate"));
goto out;
}
self->device->device->AutoCirculateStart(self->channel);
}
// Check for valid signal first
NTV2VideoFormat current_video_format =
self->device->device->GetInputVideoFormat(
self->configured_input_source);
bool all_quads_equal = true;
if (self->quad_mode) {
for (int i = 1; i < 4; i++) {
NTV2VideoFormat other_video_format =
self->device->device->GetInputVideoFormat(
(NTV2InputSource)(self->configured_input_source + i));
if (other_video_format != current_video_format) {
std::string current_string =
NTV2VideoFormatToString(current_video_format);
std::string other_string =
NTV2VideoFormatToString(other_video_format);
GST_DEBUG_OBJECT(
self,
"Not all quadrants had the same format in "
"quad-link-mode: %s (%d) on input 1 vs. %s (%d) on input %d",
current_string.c_str(), current_video_format,
other_string.c_str(), other_video_format, i + 1);
all_quads_equal = false;
break;
}
}
}
ULWord vpid_a = 0;
ULWord vpid_b = 0;
self->device->device->ReadSDIInVPID(self->channel, vpid_a, vpid_b);
{
std::string current_string =
NTV2VideoFormatToString(current_video_format);
GST_TRACE_OBJECT(
self, "Detected input video format %s (%d) with VPID %08x / %08x",
current_string.c_str(), (int)current_video_format, vpid_a, vpid_b);
}
NTV2VideoFormat effective_video_format = self->video_format;
// Can't call this unconditionally as it also maps e.g. 3840x2160p to 1080p
if (self->quad_mode) {
effective_video_format =
::GetQuarterSizedVideoFormat(effective_video_format);
}
switch (self->video_format) {
case NTV2_FORMAT_1080psf_2500_2:
if (current_video_format == NTV2_FORMAT_1080i_5000)
current_video_format = NTV2_FORMAT_1080psf_2500_2;
break;
case NTV2_FORMAT_1080psf_2997_2:
if (current_video_format == NTV2_FORMAT_1080i_5994)
current_video_format = NTV2_FORMAT_1080psf_2997_2;
break;
case NTV2_FORMAT_1080psf_3000_2:
if (current_video_format == NTV2_FORMAT_1080i_6000)
current_video_format = NTV2_FORMAT_1080psf_3000_2;
break;
default:
break;
}
if (current_video_format == ::NTV2_FORMAT_UNKNOWN || !all_quads_equal) {
if (self->video_format_setting == GST_AJA_VIDEO_FORMAT_AUTO)
self->video_format = NTV2_FORMAT_UNKNOWN;
GST_DEBUG_OBJECT(self, "No signal, waiting");
g_mutex_unlock(&self->queue_lock);
frames_dropped_last = G_MAXUINT64;
if (have_signal) {
QueueItem item = {
.type = QUEUE_ITEM_TYPE_SIGNAL_CHANGE,
.signal_change = {.have_signal = FALSE,
.detected_format = ::NTV2_FORMAT_UNKNOWN,
.vpid = 0}};
last_detected_video_format = ::NTV2_FORMAT_UNKNOWN;
gst_queue_array_push_tail_struct(self->queue, &item);
g_cond_signal(&self->queue_cond);
have_signal = FALSE;
discont = TRUE;
}
self->device->device->WaitForInputVerticalInterrupt(self->channel);
g_mutex_lock(&self->queue_lock);
continue;
} else if (current_video_format != effective_video_format &&
current_video_format != self->video_format) {
// Try reconfiguring with the newly detected video format
if (self->video_format_setting == GST_AJA_VIDEO_FORMAT_AUTO) {
self->video_format = NTV2_FORMAT_UNKNOWN;
continue;
}
std::string current_string =
NTV2VideoFormatToString(current_video_format);
std::string configured_string =
NTV2VideoFormatToString(self->video_format);
std::string effective_string =
NTV2VideoFormatToString(effective_video_format);
GST_DEBUG_OBJECT(self,
"Different input format %s than configured %s "
"(effective %s), waiting",
current_string.c_str(), configured_string.c_str(),
effective_string.c_str());
g_mutex_unlock(&self->queue_lock);
frames_dropped_last = G_MAXUINT64;
if (have_signal || current_video_format != last_detected_video_format) {
QueueItem item = {
.type = QUEUE_ITEM_TYPE_SIGNAL_CHANGE,
.signal_change = {.have_signal = FALSE,
.detected_format = current_video_format,
.vpid = vpid_a}};
last_detected_video_format = current_video_format;
gst_queue_array_push_tail_struct(self->queue, &item);
g_cond_signal(&self->queue_cond);
have_signal = FALSE;
discont = TRUE;
}
self->device->device->WaitForInputVerticalInterrupt(self->channel);
g_mutex_lock(&self->queue_lock);
continue;
}
AUTOCIRCULATE_STATUS status;
self->device->device->AutoCirculateGetStatus(self->channel, status);
GST_TRACE_OBJECT(self,
"Start frame %d "
"end frame %d "
"active frame %d "
"start time %" G_GUINT64_FORMAT
" "
"current time %" G_GUINT64_FORMAT
" "
"frames processed %u "
"frames dropped %u "
"buffer level %u",
status.acStartFrame, status.acEndFrame,
status.acActiveFrame, status.acRDTSCStartTime,
status.acRDTSCCurrentTime, status.acFramesProcessed,
status.acFramesDropped, status.acBufferLevel);
if (frames_dropped_last == G_MAXUINT64) {
frames_dropped_last = status.acFramesDropped;
} else if (frames_dropped_last < status.acFramesDropped) {
GST_WARNING_OBJECT(self, "Dropped %" G_GUINT64_FORMAT " frames",
status.acFramesDropped - frames_dropped_last);
GstClockTime timestamp =
gst_util_uint64_scale(status.acFramesProcessed + frames_dropped_last,
self->configured_info.fps_n,
self->configured_info.fps_d * GST_SECOND);
GstClockTime timestamp_end = gst_util_uint64_scale(
status.acFramesProcessed + status.acFramesDropped,
self->configured_info.fps_n,
self->configured_info.fps_d * GST_SECOND);
QueueItem item = {.type = QUEUE_ITEM_TYPE_FRAMES_DROPPED,
.frames_dropped = {.driver_side = TRUE,
.timestamp_start = timestamp,
.timestamp_end = timestamp_end}};
gst_queue_array_push_tail_struct(self->queue, &item);
g_cond_signal(&self->queue_cond);
frames_dropped_last = status.acFramesDropped;
discont = TRUE;
}
if (status.IsRunning() && status.acBufferLevel > 1) {
GstBuffer *video_buffer = NULL;
GstBuffer *audio_buffer = NULL;
GstBuffer *anc_buffer = NULL, *anc_buffer2 = NULL;
GstMapInfo video_map = GST_MAP_INFO_INIT;
GstMapInfo audio_map = GST_MAP_INFO_INIT;
GstMapInfo anc_map = GST_MAP_INFO_INIT;
GstMapInfo anc_map2 = GST_MAP_INFO_INIT;
AUTOCIRCULATE_TRANSFER transfer;
if (!have_signal) {
QueueItem item = {
.type = QUEUE_ITEM_TYPE_SIGNAL_CHANGE,
.signal_change = {.have_signal = TRUE,
.detected_format = current_video_format,
.vpid = vpid_a}};
gst_queue_array_push_tail_struct(self->queue, &item);
g_cond_signal(&self->queue_cond);
have_signal = TRUE;
}
iterations_without_frame = 0;
if (gst_buffer_pool_acquire_buffer(self->buffer_pool, &video_buffer,
NULL) != GST_FLOW_OK) {
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to acquire video buffer"));
break;
}
if (gst_buffer_pool_acquire_buffer(self->audio_buffer_pool, &audio_buffer,
NULL) != GST_FLOW_OK) {
gst_buffer_unref(video_buffer);
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to acquire audio buffer"));
break;
}
if (self->vanc_mode == ::NTV2_VANCMODE_OFF &&
::NTV2DeviceCanDoCustomAnc(self->device_id)) {
if (gst_buffer_pool_acquire_buffer(self->anc_buffer_pool, &anc_buffer,
NULL) != GST_FLOW_OK) {
gst_buffer_unref(audio_buffer);
gst_buffer_unref(video_buffer);
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to acquire anc buffer"));
break;
}
if (self->configured_info.interlace_mode !=
GST_VIDEO_INTERLACE_MODE_PROGRESSIVE) {
if (gst_buffer_pool_acquire_buffer(
self->anc_buffer_pool, &anc_buffer2, NULL) != GST_FLOW_OK) {
gst_buffer_unref(anc_buffer);
gst_buffer_unref(audio_buffer);
gst_buffer_unref(video_buffer);
AJA_SRC_ERROR(self, STREAM, FAILED, (NULL),
("Failed to acquire anc buffer"));
break;
}
}
}
gst_buffer_map(video_buffer, &video_map, GST_MAP_READWRITE);
gst_buffer_map(audio_buffer, &audio_map, GST_MAP_READWRITE);
if (anc_buffer) gst_buffer_map(anc_buffer, &anc_map, GST_MAP_READWRITE);
if (anc_buffer2)
gst_buffer_map(anc_buffer2, &anc_map2, GST_MAP_READWRITE);
transfer.acFrameBufferFormat = ::NTV2_FBF_10BIT_YCBCR;
transfer.SetVideoBuffer((ULWord *)video_map.data, video_map.size);
transfer.SetAudioBuffer((ULWord *)audio_map.data, audio_map.size);
transfer.SetAncBuffers((ULWord *)anc_map.data, anc_map.size,
(ULWord *)anc_map2.data, anc_map2.size);
g_mutex_unlock(&self->queue_lock);
bool transfered = true;
if (!self->device->device->AutoCirculateTransfer(self->channel,
transfer)) {
GST_WARNING_OBJECT(self, "Failed to transfer frame");
transfered = false;
}
if (anc_buffer2) gst_buffer_unmap(anc_buffer2, &anc_map2);
if (anc_buffer) gst_buffer_unmap(anc_buffer, &anc_map);
gst_buffer_unmap(audio_buffer, &audio_map);
gst_buffer_unmap(video_buffer, &video_map);
g_mutex_lock(&self->queue_lock);
if (!transfered) {
gst_clear_buffer(&anc_buffer2);
gst_clear_buffer(&anc_buffer);
gst_clear_buffer(&audio_buffer);
gst_clear_buffer(&video_buffer);
continue;
}
gst_buffer_set_size(audio_buffer, transfer.GetCapturedAudioByteCount());
if (anc_buffer)
gst_buffer_set_size(anc_buffer,
transfer.GetCapturedAncByteCount(false));
if (anc_buffer2)
gst_buffer_set_size(anc_buffer2,
transfer.GetCapturedAncByteCount(true));
NTV2TCIndex tc_index;
switch (self->timecode_index) {
case GST_AJA_TIMECODE_INDEX_VITC:
tc_index = ::NTV2InputSourceToTimecodeIndex(
self->configured_input_source, true);
break;
case GST_AJA_TIMECODE_INDEX_ATC_LTC:
tc_index = ::NTV2InputSourceToTimecodeIndex(
self->configured_input_source, false);
break;
case GST_AJA_TIMECODE_INDEX_LTC1:
tc_index = ::NTV2_TCINDEX_LTC1;
break;
case GST_AJA_TIMECODE_INDEX_LTC2:
tc_index = ::NTV2_TCINDEX_LTC2;
break;
default:
g_assert_not_reached();
break;
}
NTV2_RP188 time_code;
transfer.acTransferStatus.acFrameStamp.GetInputTimeCode(time_code,
tc_index);
gint64 frame_time = transfer.acTransferStatus.acFrameStamp.acFrameTime;
gint64 now_sys = g_get_real_time();
GstClockTime now_gst = gst_clock_get_time(clock);
if (now_sys * 10 > frame_time) {
GstClockTime diff = now_sys * 1000 - frame_time * 100;
if (now_gst > diff)
now_gst -= diff;
else
now_gst = 0;
}
GstClockTime base_time =
gst_element_get_base_time(GST_ELEMENT_CAST(self));
if (now_gst > base_time)
now_gst -= base_time;
else
now_gst = 0;
// TODO: Drift detection and compensation
GST_BUFFER_PTS(video_buffer) = now_gst;
GST_BUFFER_DURATION(video_buffer) = gst_util_uint64_scale(
GST_SECOND, self->configured_info.fps_d, self->configured_info.fps_n);
GST_BUFFER_PTS(audio_buffer) = now_gst;
GST_BUFFER_DURATION(audio_buffer) = gst_util_uint64_scale(
GST_SECOND, self->configured_info.fps_d, self->configured_info.fps_n);
while (self->queue_num_frames >= self->queue_size) {
guint n = gst_queue_array_get_length(self->queue);
for (guint i = 0; i < n; i++) {
QueueItem *tmp =
(QueueItem *)gst_queue_array_peek_nth_struct(self->queue, i);
if (tmp->type == QUEUE_ITEM_TYPE_FRAME) {
GST_WARNING_OBJECT(self,
"Element queue overrun, dropping old frame");
QueueItem item = {
.type = QUEUE_ITEM_TYPE_FRAMES_DROPPED,
.frames_dropped = {
.driver_side = FALSE,
.timestamp_start = tmp->frame.capture_time,
.timestamp_end =
tmp->frame.capture_time +
gst_util_uint64_scale(GST_SECOND,
self->configured_info.fps_d,
self->configured_info.fps_n)}};
queue_item_clear(tmp);
gst_queue_array_drop_struct(self->queue, i, NULL);
gst_queue_array_push_tail_struct(self->queue, &item);
self->queue_num_frames -= 1;
discont = TRUE;
g_cond_signal(&self->queue_cond);
break;
}
}
}
if (discont) {
GST_BUFFER_FLAG_SET(video_buffer, GST_BUFFER_FLAG_DISCONT);
GST_BUFFER_FLAG_SET(audio_buffer, GST_BUFFER_FLAG_DISCONT);
discont = FALSE;
}
QueueItem item = {
.type = QUEUE_ITEM_TYPE_FRAME,
.frame = {.capture_time = now_gst,
.video_buffer = video_buffer,
.audio_buffer = audio_buffer,
.anc_buffer = anc_buffer,
.anc_buffer2 = anc_buffer2,
.tc = time_code,
.detected_format =
(self->quad_mode
? ::GetQuadSizedVideoFormat(current_video_format)
: current_video_format),
.vpid = vpid_a}};
GST_TRACE_OBJECT(self, "Queuing frame %" GST_TIME_FORMAT,
GST_TIME_ARGS(now_gst));
gst_queue_array_push_tail_struct(self->queue, &item);
self->queue_num_frames += 1;
GST_TRACE_OBJECT(self, "%u frames queued", self->queue_num_frames);
g_cond_signal(&self->queue_cond);
} else {
g_mutex_unlock(&self->queue_lock);
// If we don't have a frame for 32 iterations (512ms) then consider
// this as signal loss too even if the driver still reports the
// expected mode above
if (have_signal && iterations_without_frame < 32) {
iterations_without_frame++;
} else {
frames_dropped_last = G_MAXUINT64;
if (have_signal || last_detected_video_format != current_video_format) {
QueueItem item = {
.type = QUEUE_ITEM_TYPE_SIGNAL_CHANGE,
.signal_change = {.have_signal = TRUE,
.detected_format = current_video_format,
.vpid = vpid_a}};
last_detected_video_format = current_video_format;
gst_queue_array_push_tail_struct(self->queue, &item);
g_cond_signal(&self->queue_cond);
have_signal = FALSE;
discont = TRUE;
}
}
self->device->device->WaitForInputVerticalInterrupt(self->channel);
g_mutex_lock(&self->queue_lock);
}
}
out: {
// Make sure to globally lock here as the routing settings and others are
// global shared state
ShmMutexLocker locker;
self->device->device->AutoCirculateStop(self->channel);
self->device->device->UnsubscribeInputVerticalEvent(self->channel);
self->device->device->DisableInputInterrupt(self->channel);
self->device->device->DisableChannel(self->channel);
if (self->quad_mode) {
for (int i = 1; i < 4; i++) {
self->device->device->DisableChannel((NTV2Channel)(self->channel + i));
}
}
}
if (!self->playing && !self->shutdown) goto restart;
g_mutex_unlock(&self->queue_lock);
gst_clear_object(&clock);
GST_DEBUG_OBJECT(self, "Stopped");
}