/* GStreamer * * v4lsrc_calls.c: generic V4L source functions * * Copyright (C) 2001-2002 Ronald Bultje * * 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., 59 Temple Place - Suite 330, * Boston, MA 02111-1307, USA. */ #ifdef HAVE_CONFIG_H #include #endif #include #include #include #include #include #include #include #include #include "v4lsrc_calls.h" #include /* number of buffers to be queued *at least* before syncing */ #define MIN_BUFFERS_QUEUED 2 /* On some systems MAP_FAILED seems to be missing */ #ifndef MAP_FAILED #define MAP_FAILED ( (caddr_t) -1 ) #endif GST_DEBUG_CATEGORY_EXTERN (v4l_debug); #define GST_CAT_DEFAULT v4l_debug #ifndef GST_DISABLE_GST_DEBUG /* palette names */ const char *v4l_palette_name[] = { "", /* 0 */ "grayscale", /* VIDEO_PALETTE_GREY */ "Hi-420", /* VIDEO_PALETTE_HI420 */ "16-bit RGB (RGB-565)", /* VIDEO_PALETTE_RB565 */ "24-bit RGB", /* VIDEO_PALETTE_RGB24 */ "32-bit RGB", /* VIDEO_PALETTE_RGB32 */ "15-bit RGB (RGB-555)", /* VIDEO_PALETTE_RGB555 */ "YUV-4:2:2 (packed)", /* VIDEO_PALETTE_YUV422 */ "YUYV", /* VIDEO_PALETTE_YUYV */ "UYVY", /* VIDEO_PALETTE_UYVY */ "YUV-4:2:0 (packed)", /* VIDEO_PALETTE_YUV420 */ "YUV-4:1:1 (packed)", /* VIDEO_PALETTE_YUV411 */ "Raw", /* VIDEO_PALETTE_RAW */ "YUV-4:2:2 (planar)", /* VIDEO_PALETTE_YUV422P */ "YUV-4:1:1 (planar)", /* VIDEO_PALETTE_YUV411P */ "YUV-4:2:0 (planar)/I420", /* VIDEO_PALETTE_YUV420P */ "YUV-4:1:0 (planar)" /* VIDEO_PALETTE_YUV410P */ }; #endif /****************************************************** * gst_v4lsrc_queue_frame(): * queue a frame for capturing * (ie. instruct the hardware to start capture) * Requires queue_state lock to be held! * return value: TRUE on success, FALSE on error ******************************************************/ static gboolean gst_v4lsrc_queue_frame (GstV4lSrc * v4lsrc, gint num) { GST_LOG_OBJECT (v4lsrc, "queueing frame %d", num); if (v4lsrc->frame_queue_state[num] != QUEUE_STATE_READY_FOR_QUEUE) { return FALSE; } /* instruct the driver to prepare capture using buffer frame num */ v4lsrc->mmap.frame = num; if (ioctl (GST_V4LELEMENT (v4lsrc)->video_fd, VIDIOCMCAPTURE, &(v4lsrc->mmap)) < 0) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, WRITE, (NULL), ("Error queueing a buffer (%d): %s", num, g_strerror (errno))); return FALSE; } v4lsrc->frame_queue_state[num] = QUEUE_STATE_QUEUED; v4lsrc->num_queued++; return TRUE; } /****************************************************** * gst_v4lsrc_hard_sync_frame(GstV4lSrc *v4lsrc,gint num) * sync a frame and set the timestamp correctly * Requires queue_state lock to be held *****************************************************/ static gboolean gst_v4lsrc_sync_frame (GstV4lSrc * v4lsrc, gint num) { GST_LOG_OBJECT (v4lsrc, "VIOIOCSYNC on frame %d", num); if (v4lsrc->frame_queue_state[num] != QUEUE_STATE_QUEUED) { return FALSE; } while (ioctl (GST_V4LELEMENT (v4lsrc)->video_fd, VIDIOCSYNC, &num) < 0) { /* if the sync() got interrupted, we can retry */ if (errno != EINTR) { v4lsrc->frame_queue_state[num] = QUEUE_STATE_ERROR; GST_ELEMENT_ERROR (v4lsrc, RESOURCE, SYNC, (NULL), GST_ERROR_SYSTEM); return FALSE; } GST_DEBUG_OBJECT (v4lsrc, "Sync got interrupted"); } GST_LOG_OBJECT (v4lsrc, "VIOIOCSYNC on frame %d done", num); if (v4lsrc->clock) { v4lsrc->timestamp_sync = gst_clock_get_time (v4lsrc->clock); } else { GTimeVal time; g_get_current_time (&time); v4lsrc->timestamp_sync = GST_TIMEVAL_TO_TIME (time); } v4lsrc->frame_queue_state[num] = QUEUE_STATE_SYNCED; v4lsrc->num_queued--; return TRUE; } /****************************************************** * gst_v4lsrc_set_capture(): * set capture parameters, palette = VIDEO_PALETTE_* * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_set_capture (GstV4lSrc * v4lsrc, gint width, gint height, gint palette) { GST_DEBUG_OBJECT (v4lsrc, "capture properties set to %dx%d, palette %d", width, height, palette); v4lsrc->mmap.width = width; v4lsrc->mmap.height = height; v4lsrc->mmap.format = palette; return TRUE; } /****************************************************** * gst_v4lsrc_capture_init(): * initialize the capture system * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_capture_init (GstV4lSrc * v4lsrc) { GST_DEBUG_OBJECT (v4lsrc, "initting capture subsystem"); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_NOT_ACTIVE (GST_V4LELEMENT (v4lsrc)); /* request the mmap buffer info: * total size of mmap buffer, number of frames, offsets of frames */ if (ioctl (GST_V4LELEMENT (v4lsrc)->video_fd, VIDIOCGMBUF, &(v4lsrc->mbuf)) < 0) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, READ, (NULL), ("Error getting buffer information: %s", g_strerror (errno))); return FALSE; } if (v4lsrc->mbuf.frames < MIN_BUFFERS_QUEUED) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, READ, (NULL), ("Not enough buffers. We got %d, we want at least %d", v4lsrc->mbuf.frames, MIN_BUFFERS_QUEUED)); return FALSE; } GST_INFO_OBJECT (v4lsrc, "Got %d buffers (\'%s\') with total size %d KB", v4lsrc->mbuf.frames, v4l_palette_name[v4lsrc->mmap.format], v4lsrc->mbuf.size / (v4lsrc->mbuf.frames * 1024)); /* keep track of queued buffers */ v4lsrc->frame_queue_state = (gint8 *) g_malloc (sizeof (gint8) * v4lsrc->mbuf.frames); /* track how often to use each frame */ v4lsrc->use_num_times = (gint *) g_malloc (sizeof (gint) * v4lsrc->mbuf.frames); /* lock for the frame_state */ v4lsrc->mutex_queue_state = g_mutex_new (); v4lsrc->cond_queue_state = g_cond_new (); /* Map the buffers */ GST_V4LELEMENT (v4lsrc)->buffer = mmap (0, v4lsrc->mbuf.size, PROT_READ | PROT_WRITE, MAP_SHARED, GST_V4LELEMENT (v4lsrc)->video_fd, 0); if (GST_V4LELEMENT (v4lsrc)->buffer == MAP_FAILED) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, OPEN_READ_WRITE, (NULL), ("Error mapping video buffers: %s", g_strerror (errno))); GST_V4LELEMENT (v4lsrc)->buffer = NULL; return FALSE; } return TRUE; } /****************************************************** * gst_v4lsrc_capture_start(): * start streaming capture * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_capture_start (GstV4lSrc * v4lsrc) { int n; GST_DEBUG_OBJECT (v4lsrc, "starting capture"); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_ACTIVE (GST_V4LELEMENT (v4lsrc)); g_mutex_lock (v4lsrc->mutex_queue_state); v4lsrc->quit = FALSE; v4lsrc->num_queued = 0; v4lsrc->sync_frame = 0; v4lsrc->queue_frame = 0; /* set all buffers ready to queue, and queue captures to the device. * This starts streaming capture */ for (n = 0; n < v4lsrc->mbuf.frames; n++) { v4lsrc->frame_queue_state[n] = QUEUE_STATE_READY_FOR_QUEUE; if (!gst_v4lsrc_queue_frame (v4lsrc, n)) { g_mutex_unlock (v4lsrc->mutex_queue_state); gst_v4lsrc_capture_stop (v4lsrc); return FALSE; } } v4lsrc->is_capturing = TRUE; g_mutex_unlock (v4lsrc->mutex_queue_state); return TRUE; } /****************************************************** * gst_v4lsrc_grab_frame(): * capture one frame during streaming capture * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_grab_frame (GstV4lSrc * v4lsrc, gint * num) { GST_LOG_OBJECT (v4lsrc, "grabbing frame %d", *num); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_ACTIVE (GST_V4LELEMENT (v4lsrc)); g_mutex_lock (v4lsrc->mutex_queue_state); /* do we have enough frames? */ while (v4lsrc->num_queued < MIN_BUFFERS_QUEUED || v4lsrc->frame_queue_state[v4lsrc->queue_frame] == QUEUE_STATE_READY_FOR_QUEUE) { while (v4lsrc->frame_queue_state[v4lsrc->queue_frame] != QUEUE_STATE_READY_FOR_QUEUE && !v4lsrc->quit) { GST_DEBUG_OBJECT (v4lsrc, "Waiting for frames to become available (queued %d < minimum %d)", v4lsrc->num_queued, MIN_BUFFERS_QUEUED); g_cond_wait (v4lsrc->cond_queue_state, v4lsrc->mutex_queue_state); } if (v4lsrc->quit) { g_mutex_unlock (v4lsrc->mutex_queue_state); return FALSE; } if (!gst_v4lsrc_queue_frame (v4lsrc, v4lsrc->queue_frame)) { g_mutex_unlock (v4lsrc->mutex_queue_state); return FALSE; } v4lsrc->queue_frame = (v4lsrc->queue_frame + 1) % v4lsrc->mbuf.frames; } /* syncing on the buffer grabs it */ *num = v4lsrc->sync_frame; if (!gst_v4lsrc_sync_frame (v4lsrc, *num)) { g_mutex_unlock (v4lsrc->mutex_queue_state); return FALSE; } v4lsrc->sync_frame = (v4lsrc->sync_frame + 1) % v4lsrc->mbuf.frames; GST_LOG_OBJECT (v4lsrc, "(%" GST_TIME_FORMAT ") grabbed frame %d", GST_TIME_ARGS (gst_clock_get_time (v4lsrc->clock)), *num); g_mutex_unlock (v4lsrc->mutex_queue_state); return TRUE; } /****************************************************** * gst_v4lsrc_get_buffer(): * get the address of the given frame number in the mmap'd buffer * return value: the buffer's address or NULL ******************************************************/ guint8 * gst_v4lsrc_get_buffer (GstV4lSrc * v4lsrc, gint num) { if (!GST_V4L_IS_ACTIVE (GST_V4LELEMENT (v4lsrc)) || !GST_V4L_IS_OPEN (GST_V4LELEMENT (v4lsrc))) return NULL; if (num < 0 || num >= v4lsrc->mbuf.frames) return NULL; return GST_V4LELEMENT (v4lsrc)->buffer + v4lsrc->mbuf.offsets[num]; } /****************************************************** * gst_v4lsrc_requeue_frame(): * re-queue a frame after we're done with the buffer * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_requeue_frame (GstV4lSrc * v4lsrc, gint num) { GST_LOG_OBJECT (v4lsrc, "requeueing frame %d", num); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_ACTIVE (GST_V4LELEMENT (v4lsrc)); /* mark frame as 'ready to requeue' */ g_mutex_lock (v4lsrc->mutex_queue_state); if (v4lsrc->frame_queue_state[num] != QUEUE_STATE_SYNCED) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, TOO_LAZY, (NULL), ("Invalid state %d (expected %d), can't requeue", v4lsrc->frame_queue_state[num], QUEUE_STATE_SYNCED)); return FALSE; } v4lsrc->frame_queue_state[num] = QUEUE_STATE_READY_FOR_QUEUE; /* let an optional wait know */ g_cond_broadcast (v4lsrc->cond_queue_state); g_mutex_unlock (v4lsrc->mutex_queue_state); return TRUE; } /****************************************************** * gst_v4lsrc_capture_stop(): * stop streaming capture * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_capture_stop (GstV4lSrc * v4lsrc) { GST_DEBUG_OBJECT (v4lsrc, "stopping capture"); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_ACTIVE (GST_V4LELEMENT (v4lsrc)); g_mutex_lock (v4lsrc->mutex_queue_state); v4lsrc->is_capturing = FALSE; /* make an optional pending wait stop */ v4lsrc->quit = TRUE; g_cond_broadcast (v4lsrc->cond_queue_state); /* sync on remaining frames */ while (1) { if (v4lsrc->frame_queue_state[v4lsrc->sync_frame] == QUEUE_STATE_QUEUED) { gst_v4lsrc_sync_frame (v4lsrc, v4lsrc->sync_frame); v4lsrc->sync_frame = (v4lsrc->sync_frame + 1) % v4lsrc->mbuf.frames; } else { break; } } g_mutex_unlock (v4lsrc->mutex_queue_state); return TRUE; } /****************************************************** * gst_v4lsrc_capture_deinit(): * deinitialize the capture system * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_capture_deinit (GstV4lSrc * v4lsrc) { GST_DEBUG_OBJECT (v4lsrc, "quitting capture subsystem"); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_ACTIVE (GST_V4LELEMENT (v4lsrc)); /* free buffer tracker */ g_mutex_free (v4lsrc->mutex_queue_state); v4lsrc->mutex_queue_state = NULL; g_cond_free (v4lsrc->cond_queue_state); v4lsrc->cond_queue_state = NULL; g_free (v4lsrc->frame_queue_state); v4lsrc->frame_queue_state = NULL; g_free (v4lsrc->use_num_times); v4lsrc->use_num_times = NULL; /* unmap the buffer */ if (munmap (GST_V4LELEMENT (v4lsrc)->buffer, v4lsrc->mbuf.size) == -1) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, CLOSE, (NULL), ("error munmap'ing capture buffer: %s", g_strerror (errno))); return FALSE; } GST_V4LELEMENT (v4lsrc)->buffer = NULL; return TRUE; } /****************************************************** * gst_v4lsrc_try_capture(): * try out a capture on the device * This has to be done before initializing the * actual capture system, to make sure we don't * mess up anything. So we need to mini-mmap() * a buffer here, queue and sync on one buffer, * and unmap it. * This is ugly, yes, I know - but it's a major * design flaw of v4l1 that you don't know in * advance which formats will be supported... * This is better than "just assuming that it'll * work"... * return value: TRUE on success, FALSE on error ******************************************************/ gboolean gst_v4lsrc_try_capture (GstV4lSrc * v4lsrc, gint width, gint height, gint palette) { /* so, we need a buffer and some more stuff */ int frame = 0; guint8 *buffer; struct video_mbuf vmbuf; struct video_mmap vmmap; GST_DEBUG_OBJECT (v4lsrc, "try out %dx%d, palette format %d (%s)", width, height, palette, v4l_palette_name[palette]); GST_V4L_CHECK_OPEN (GST_V4LELEMENT (v4lsrc)); GST_V4L_CHECK_NOT_ACTIVE (GST_V4LELEMENT (v4lsrc)); /* let's start by requesting a buffer and mmap()'ing it */ if (ioctl (GST_V4LELEMENT (v4lsrc)->video_fd, VIDIOCGMBUF, &vmbuf) < 0) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, READ, (NULL), ("Error getting buffer information: %s", g_strerror (errno))); return FALSE; } /* Map the buffers */ buffer = mmap (0, vmbuf.size, PROT_READ | PROT_WRITE, MAP_SHARED, GST_V4LELEMENT (v4lsrc)->video_fd, 0); if (buffer == MAP_FAILED) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, OPEN_READ_WRITE, (NULL), ("Error mapping our try-out buffer: %s", g_strerror (errno))); return FALSE; } /* now that we have a buffer, let's try out our format */ vmmap.width = width; vmmap.height = height; vmmap.format = palette; vmmap.frame = frame; if (ioctl (GST_V4LELEMENT (v4lsrc)->video_fd, VIDIOCMCAPTURE, &vmmap) < 0) { if (errno != EINVAL) /* our format failed! */ GST_ERROR_OBJECT (v4lsrc, "Error queueing our try-out buffer: %s", g_strerror (errno)); munmap (buffer, vmbuf.size); return FALSE; } if (ioctl (GST_V4LELEMENT (v4lsrc)->video_fd, VIDIOCSYNC, &frame) < 0) { GST_ELEMENT_ERROR (v4lsrc, RESOURCE, SYNC, (NULL), GST_ERROR_SYSTEM); munmap (buffer, vmbuf.size); return FALSE; } munmap (buffer, vmbuf.size); /* if we got here, it worked! woohoo, the format is supported! */ return TRUE; }