diff --git a/src/zm_local_camera.cpp b/src/zm_local_camera.cpp index ff914d6ac..642733e8b 100644 --- a/src/zm_local_camera.cpp +++ b/src/zm_local_camera.cpp @@ -240,7 +240,6 @@ int LocalCamera::channel_count = 0; int LocalCamera::channels[VIDEO_MAX_FRAME]; int LocalCamera::standards[VIDEO_MAX_FRAME]; - int LocalCamera::vid_fd = -1; int LocalCamera::v4l_version = 0; @@ -721,7 +720,7 @@ bool LocalCamera::GetCurrentSettings( const char *device, char *output, bool ver output[0] = 0; if ( verbose ) sprintf( output, output+strlen(output), "Checking Video Device: %s\n", device ); - if ( (vid_fd=open(device, O_RDWR)) <=0 ) + if ( (vid_fd = open(device, O_RDWR)) <= 0 ) { Error( "Failed to open video device %s: %s", device, strerror(errno) ); if ( verbose ) @@ -731,174 +730,413 @@ bool LocalCamera::GetCurrentSettings( const char *device, char *output, bool ver return( false ); } - struct video_capability vid_cap; - if ( ioctl( vid_fd, VIDIOCGCAP, &vid_cap ) < 0 ) - { - Error( "Failed to get video capabilities: %s", strerror(errno) ); - if ( verbose ) - sprintf( output, "Error, failed to get video capabilities %s: %s\n", device, strerror(errno) ); - else - sprintf( output, "error%d\n", errno ); - return( false ); - } - if ( verbose ) - { - sprintf( output+strlen(output), "Video Capabilities\n" ); - sprintf( output+strlen(output), " Name: %s\n", vid_cap.name ); - sprintf( output+strlen(output), " Type: %d\n%s%s%s%s%s%s%s%s%s%s%s%s%s%s", vid_cap.type, - vid_cap.type&VID_TYPE_CAPTURE?" Can capture\n":"", - vid_cap.type&VID_TYPE_TUNER?" Can tune\n":"", - vid_cap.type&VID_TYPE_TELETEXT?" Does teletext\n":"", - vid_cap.type&VID_TYPE_OVERLAY?" Overlay onto frame buffer\n":"", - vid_cap.type&VID_TYPE_CHROMAKEY?" Overlay by chromakey\n":"", - vid_cap.type&VID_TYPE_CLIPPING?" Can clip\n":"", - vid_cap.type&VID_TYPE_FRAMERAM?" Uses the frame buffer memory\n":"", - vid_cap.type&VID_TYPE_SCALES?" Scalable\n":"", - vid_cap.type&VID_TYPE_MONOCHROME?" Monochrome only\n":"", - vid_cap.type&VID_TYPE_SUBCAPTURE?" Can capture subareas of the image\n":"", - vid_cap.type&VID_TYPE_MPEG_DECODER?" Can decode MPEG streams\n":"", - vid_cap.type&VID_TYPE_MPEG_ENCODER?" Can encode MPEG streams\n":"", - vid_cap.type&VID_TYPE_MJPEG_DECODER?" Can decode MJPEG streams\n":"", - vid_cap.type&VID_TYPE_MJPEG_ENCODER?" Can encode MJPEG streams\n":"" - ); - sprintf( output+strlen(output), " Video Channels: %d\n", vid_cap.channels ); - sprintf( output+strlen(output), " Audio Channels: %d\n", vid_cap.audios ); - sprintf( output+strlen(output), " Maximum Width: %d\n", vid_cap.maxwidth ); - sprintf( output+strlen(output), " Maximum Height: %d\n", vid_cap.maxheight ); - sprintf( output+strlen(output), " Minimum Width: %d\n", vid_cap.minwidth ); - sprintf( output+strlen(output), " Minimum Height: %d\n", vid_cap.minheight ); - } - else - { - sprintf( output+strlen(output), "N:%s,", vid_cap.name ); - sprintf( output+strlen(output), "T:%d,", vid_cap.type ); - sprintf( output+strlen(output), "nC:%d,", vid_cap.channels ); - sprintf( output+strlen(output), "nA:%d,", vid_cap.audios ); - sprintf( output+strlen(output), "mxW:%d,", vid_cap.maxwidth ); - sprintf( output+strlen(output), "mxH:%d,", vid_cap.maxheight ); - sprintf( output+strlen(output), "mnW:%d,", vid_cap.minwidth ); - sprintf( output+strlen(output), "mnH:%d,", vid_cap.minheight ); - } +#ifdef ZM_V4L2 + //if ( v4l_version == 2 ) + if ( true ) + { + struct v4l2_capability vid_cap; + if ( vidioctl( vid_fd, VIDIOC_QUERYCAP, &vid_cap ) < 0 ) + { + Error( "Failed to query video device: %s", strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to query video capabilities %s: %s\n", device, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } +#define capString(test,prefix,yesString,noString,capability) \ + (test) ? (prefix yesString " " capability "\n") : (prefix noString " " capability "\n") - struct video_window vid_win; - if ( ioctl( vid_fd, VIDIOCGWIN, &vid_win ) < 0 ) - { - Error( "Failed to get window attributes: %s", strerror(errno) ); - if ( verbose ) - sprintf( output, "Error, failed to get window attributes: %s\n", strerror(errno) ); - else - sprintf( output, "error%d\n", errno ); - return( false ); - } - if ( verbose ) - { - sprintf( output+strlen(output), "Window Attributes\n" ); - sprintf( output+strlen(output), " X Offset: %d\n", vid_win.x ); - sprintf( output+strlen(output), " Y Offset: %d\n", vid_win.y ); - sprintf( output+strlen(output), " Width: %d\n", vid_win.width ); - sprintf( output+strlen(output), " Height: %d\n", vid_win.height ); - } - else - { - sprintf( output+strlen(output), "X:%d,", vid_win.x ); - sprintf( output+strlen(output), "Y:%d,", vid_win.y ); - sprintf( output+strlen(output), "W:%d,", vid_win.width ); - sprintf( output+strlen(output), "H:%d,", vid_win.height ); - } + if ( verbose ) + { + sprintf( output+strlen(output), "General Capabilities\n" ); + sprintf( output+strlen(output), " Driver: %s\n", vid_cap.driver ); + sprintf( output+strlen(output), " Card: %s\n", vid_cap.card ); + sprintf( output+strlen(output), " Bus: %s\n", vid_cap.bus_info ); + sprintf( output+strlen(output), " Version: %u.%u.%u\n", (vid_cap.version>>16)&0xff, (vid_cap.version>>8)&0xff, vid_cap.version&0xff ); + sprintf( output+strlen(output), " Type: 0x%x\n%s%s%s%s%s%s%s%s%s%s%s%s%s%s", vid_cap.capabilities, + capString( vid_cap.capabilities&V4L2_CAP_VIDEO_CAPTURE, " ", "Supports", "Does not support", "video capture (X)" ), + capString( vid_cap.capabilities&V4L2_CAP_VIDEO_OUTPUT, " ", "Supports", "Does not support", "video output" ), + capString( vid_cap.capabilities&V4L2_CAP_VIDEO_OVERLAY, " ", "Supports", "Does not support", "frame buffer overlay" ), + capString( vid_cap.capabilities&V4L2_CAP_VBI_CAPTURE, " ", "Supports", "Does not support", "VBI capture" ), + capString( vid_cap.capabilities&V4L2_CAP_VBI_OUTPUT, " ", "Supports", "Does not support", "VBI output" ), + capString( vid_cap.capabilities&V4L2_CAP_SLICED_VBI_CAPTURE, " ", "Supports", "Does not support", "sliced VBI capture" ), + capString( vid_cap.capabilities&V4L2_CAP_SLICED_VBI_OUTPUT, " ", "Supports", "Does not support", "sliced VBI output" ), + capString( vid_cap.capabilities&V4L2_CAP_VIDEO_OUTPUT_OVERLAY, " ", "Supports", "Does not support", "video output overlay" ), + capString( vid_cap.capabilities&V4L2_CAP_TUNER, " ", "Has", "Does not have", "tuner" ), + capString( vid_cap.capabilities&V4L2_CAP_AUDIO, " ", "Has", "Does not have", "audio in and/or out" ), + capString( vid_cap.capabilities&V4L2_CAP_RADIO, " ", "Has", "Does not have", "radio" ), + capString( vid_cap.capabilities&V4L2_CAP_READWRITE, " ", "Supports", "Does not support", "read/write i/o (X)" ), + capString( vid_cap.capabilities&V4L2_CAP_ASYNCIO, " ", "Supports", "Does not support", "async i/o" ), + capString( vid_cap.capabilities&V4L2_CAP_STREAMING, " ", "Supports", "Does not support", "streaming i/o (X)" ) + ); + } + else + { + sprintf( output+strlen(output), "D:%s ", vid_cap.driver ); + sprintf( output+strlen(output), "C:%s ", vid_cap.card ); + sprintf( output+strlen(output), "B:%s ", vid_cap.bus_info ); + sprintf( output+strlen(output), "V:%u.%u.%u ", (vid_cap.version>>16)&0xff, (vid_cap.version>>8)&0xff, vid_cap.version&0xff ); + sprintf( output+strlen(output), "T:0x%x ", vid_cap.capabilities ); + } - struct video_picture vid_pic; - if ( ioctl( vid_fd, VIDIOCGPICT, &vid_pic ) < 0 ) - { - Error( "Failed to get picture attributes: %s", strerror(errno) ); - if ( verbose ) - sprintf( output, "Error, failed to get picture attributes: %s\n", strerror(errno) ); - else - sprintf( output, "error%d\n", errno ); - return( false ); - } - if ( verbose ) - { - sprintf( output+strlen(output), "Picture Attributes\n" ); - sprintf( output+strlen(output), " Palette: %d - %s\n", vid_pic.palette, - vid_pic.palette==VIDEO_PALETTE_GREY?"Linear greyscale":( - vid_pic.palette==VIDEO_PALETTE_HI240?"High 240 cube (BT848)":( - vid_pic.palette==VIDEO_PALETTE_RGB565?"565 16 bit RGB":( - vid_pic.palette==VIDEO_PALETTE_RGB24?"24bit RGB":( - vid_pic.palette==VIDEO_PALETTE_RGB32?"32bit RGB":( - vid_pic.palette==VIDEO_PALETTE_RGB555?"555 15bit RGB":( - vid_pic.palette==VIDEO_PALETTE_YUV422?"YUV422 capture":( - vid_pic.palette==VIDEO_PALETTE_YUYV?"YUYV":( - vid_pic.palette==VIDEO_PALETTE_UYVY?"UVYV":( - vid_pic.palette==VIDEO_PALETTE_YUV420?"YUV420":( - vid_pic.palette==VIDEO_PALETTE_YUV411?"YUV411 capture":( - vid_pic.palette==VIDEO_PALETTE_RAW?"RAW capture (BT848)":( - vid_pic.palette==VIDEO_PALETTE_YUYV?"YUYV":( - vid_pic.palette==VIDEO_PALETTE_YUV422?"YUV422":( - vid_pic.palette==VIDEO_PALETTE_YUV422P?"YUV 4:2:2 Planar":( - vid_pic.palette==VIDEO_PALETTE_YUV411P?"YUV 4:1:1 Planar":( - vid_pic.palette==VIDEO_PALETTE_YUV420P?"YUV 4:2:0 Planar":( - vid_pic.palette==VIDEO_PALETTE_YUV410P?"YUV 4:1:0 Planar":"Unknown" - )))))))))))))))))); - sprintf( output+strlen(output), " Colour Depth: %d\n", vid_pic.depth ); - sprintf( output+strlen(output), " Brightness: %d\n", vid_pic.brightness ); - sprintf( output+strlen(output), " Hue: %d\n", vid_pic.hue ); - sprintf( output+strlen(output), " Colour :%d\n", vid_pic.colour ); - sprintf( output+strlen(output), " Contrast: %d\n", vid_pic.contrast ); - sprintf( output+strlen(output), " Whiteness: %d\n", vid_pic.whiteness ); - } - else - { - sprintf( output+strlen(output), "P:%d,", vid_pic.palette ); - sprintf( output+strlen(output), "D:%d,", vid_pic.depth ); - sprintf( output+strlen(output), "B:%d,", vid_pic.brightness ); - sprintf( output+strlen(output), "h:%d,", vid_pic.hue ); - sprintf( output+strlen(output), "Cl:%d,", vid_pic.colour ); - sprintf( output+strlen(output), "Cn:%d,", vid_pic.contrast ); - sprintf( output+strlen(output), "w:%d,", vid_pic.whiteness ); - } + if ( verbose ) + sprintf( output+strlen(output), " Standards:\n" ); + struct v4l2_standard standard; + int standardIndex = 0; + do + { + memset( &standard, 0, sizeof(standard) ); + standard.index = standardIndex; - for ( int chan = 0; chan < vid_cap.channels; chan++ ) - { - struct video_channel vid_src; - vid_src.channel = chan; - if ( ioctl( vid_fd, VIDIOCGCHAN, &vid_src ) < 0 ) - { - Error( "Failed to get channel %d attributes: %s", chan, strerror(errno) ); - if ( verbose ) - sprintf( output, "Error, failed to get channel %d attributes: %s\n", chan, strerror(errno) ); - else - sprintf( output, "error%d\n", errno ); - return( false ); - } - if ( verbose ) - { - sprintf( output+strlen(output), "Channel %d Attributes\n", chan ); - sprintf( output+strlen(output), " Name: %s\n", vid_src.name ); - sprintf( output+strlen(output), " Channel: %d\n", vid_src.channel ); - sprintf( output+strlen(output), " Flags: %d\n%s%s", vid_src.flags, - vid_src.flags&VIDEO_VC_TUNER?" Channel has a tuner\n":"", - vid_src.flags&VIDEO_VC_AUDIO?" Channel has audio\n":"" - ); - sprintf( output+strlen(output), " Type: %d - %s\n", vid_src.type, - vid_src.type==VIDEO_TYPE_TV?"TV":( - vid_src.type==VIDEO_TYPE_CAMERA?"Camera":"Unknown" - )); - sprintf( output+strlen(output), " Format: %d - %s\n", vid_src.norm, - vid_src.norm==VIDEO_MODE_PAL?"PAL":( - vid_src.norm==VIDEO_MODE_NTSC?"NTSC":( - vid_src.norm==VIDEO_MODE_SECAM?"SECAM":( - vid_src.norm==VIDEO_MODE_AUTO?"AUTO":"Unknown" - )))); - } - else - { - sprintf( output+strlen(output), "n%d:%s,", chan, vid_src.name ); - sprintf( output+strlen(output), "C%d:%d,", chan, vid_src.channel ); - sprintf( output+strlen(output), "Fl%d:%x,", chan, vid_src.flags ); - sprintf( output+strlen(output), "T%d:%d", chan, vid_src.type ); - sprintf( output+strlen(output), "F%d:%d%s,", chan, vid_src.norm, chan==(vid_cap.channels-1)?"":"," ); - } - } + if ( vidioctl( vid_fd, VIDIOC_ENUMSTD, &standard ) < 0 ) + { + if ( errno == EINVAL ) + { + standardIndex = -1; + break; + } + else + { + Error( "Failed to enumerate standard %d: %s", standard.index, strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to enumerate standard %d: %s\n", standard.index, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + } + if ( verbose ) + sprintf( output+strlen(output), " %s\n", standard.name ); + else + sprintf( output+strlen(output), "S:%s ", standard.name ); + } + while ( standardIndex++ >= 0 ); + + if ( verbose ) + sprintf( output+strlen(output), " Formats:\n" ); + struct v4l2_fmtdesc format; + int formatIndex = 0; + do + { + memset( &format, 0, sizeof(format) ); + format.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; + format.index = formatIndex; + + if ( vidioctl( vid_fd, VIDIOC_ENUM_FMT, &format ) < 0 ) + { + if ( errno == EINVAL ) + { + formatIndex = -1; + break; + } + else + { + Error( "Failed to enumerate format %d: %s", format.index, strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to enumerate format %d: %s\n", format.index, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + } + if ( verbose ) + sprintf( output+strlen(output), " %s (%c%c%c%c)\n", format.description, format.pixelformat&0xff, (format.pixelformat>>8)&0xff, (format.pixelformat>>16)&0xff, (format.pixelformat>>24)&0xff ); + else + sprintf( output+strlen(output), "F:%c%c%c%c ", format.pixelformat&0xff, (format.pixelformat>>8)&0xff, (format.pixelformat>>16)&0xff, (format.pixelformat>>24)&0xff ); + } + while ( formatIndex++ >= 0 ); + + struct v4l2_cropcap cropcap; + memset( &cropcap, 0, sizeof(cropcap) ); + cropcap.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; + if ( vidioctl( vid_fd, VIDIOC_CROPCAP, &cropcap ) < 0 ) + { + Error( "Failed to query crop capabilities: %s", strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to query crop capabilities %s: %s\n", device, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + if ( verbose ) + { + sprintf( output+strlen(output), "Crop Capabilities\n" ); + sprintf( output+strlen(output), " Bounds: %d x %d\n", cropcap.bounds.width, cropcap.bounds.height ); + sprintf( output+strlen(output), " Default: %d x %d\n", cropcap.defrect.width, cropcap.defrect.height ); + } + else + { + sprintf( output+strlen(output), "B:%dx%d ", cropcap.bounds.width, cropcap.bounds.height ); + } + + struct v4l2_crop crop; + memset( &crop, 0, sizeof(crop) ); + crop.type = V4L2_BUF_TYPE_VIDEO_CAPTURE; + if ( vidioctl( vid_fd, VIDIOC_G_CROP, &crop ) < 0 ) + { + Error( "Failed to query crop: %s", strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to query crop %s: %s\n", device, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + if ( verbose ) + { + sprintf( output+strlen(output), " Current: %d x %d\n", crop.c.width, crop.c.height ); + } + else + { + //sprintf( output+strlen(output), "D:%s ", vid_cap.driver ); + //sprintf( output+strlen(output), "C:%s ", vid_cap.card ); + //sprintf( output+strlen(output), "B:%s ", vid_cap.bus_info ); + //sprintf( output+strlen(output), "V:%u.%u.%u ", (vid_cap.version>>16)&0xff, (vid_cap.version>>8)&0xff, vid_cap.version&0xff ); + //sprintf( output+strlen(output), "T:0x%x ", vid_cap.capabilities ); + } + + struct v4l2_input input; + int inputIndex = 0; + do + { + memset( &input, 0, sizeof(input) ); + input.index = inputIndex; + + if ( vidioctl( vid_fd, VIDIOC_ENUMINPUT, &input ) < 0 ) + { + if ( errno == EINVAL ) + { + inputIndex = -1; + break; + } + else + { + Error( "Failed to enumerate input %d: %s", input.index, strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to enumerate input %d: %s\n", input.index, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + } + + if ( false ) + if ( vidioctl( vid_fd, VIDIOC_S_INPUT, &input.index ) < 0 ) + { + Error( "Failed to set video input %d: %s", input.index, strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to switch to input %d: %s\n", input.index, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + + if ( verbose ) + { + sprintf( output+strlen(output), "Input %d\n", input.index ); + sprintf( output+strlen(output), " Name: %s\n", input.name ); + sprintf( output+strlen(output), " Type: %s\n", input.type==V4L2_INPUT_TYPE_TUNER?"Tuner":(input.type==V4L2_INPUT_TYPE_CAMERA?"Camera":"Unknown") ); + sprintf( output+strlen(output), " Audioset: %08x\n", input.audioset ); + sprintf( output+strlen(output), " Standards: 0x%llx\n", input.std ); + } + else + { + sprintf( output+strlen(output), "i%d:%s ", input.index, input.name ); + sprintf( output+strlen(output), "i%dT:%s ", input.index, input.type==V4L2_INPUT_TYPE_TUNER?"Tuner":(input.type==V4L2_INPUT_TYPE_CAMERA?"Camera":"Unknown") ); + sprintf( output+strlen(output), "i%dS:%llx ", input.index, input.std ); + } + + if ( verbose ) + { + sprintf( output+strlen(output), " %s", capString( input.status&V4L2_IN_ST_NO_POWER, "Power ", "off", "on", " (X)" ) ); + sprintf( output+strlen(output), " %s", capString( input.status&V4L2_IN_ST_NO_SIGNAL, "Signal ", "not detected", "detected", " (X)" ) ); + sprintf( output+strlen(output), " %s", capString( input.status&V4L2_IN_ST_NO_COLOR, "Colour Signal ", "not detected", "detected", "" ) ); + sprintf( output+strlen(output), " %s", capString( input.status&V4L2_IN_ST_NO_H_LOCK, "Horizontal Lock ", "not detected", "detected", "" ) ); + } + else + { + sprintf( output+strlen(output), "i%dSP:%d ", input.index, input.status&V4L2_IN_ST_NO_POWER?0:1 ); + sprintf( output+strlen(output), "i%dSS:%d ", input.index, input.status&V4L2_IN_ST_NO_SIGNAL?0:1 ); + sprintf( output+strlen(output), "i%dSC:%d ", input.index, input.status&V4L2_IN_ST_NO_COLOR?0:1 ); + sprintf( output+strlen(output), "i%dHP:%d ", input.index, input.status&V4L2_IN_ST_NO_H_LOCK?0:1 ); + } + } + while ( inputIndex++ >= 0 ); + if ( !verbose ) + output[strlen(output)-1] = '\n'; + } + else +#endif // ZM_V4L2 + { + struct video_capability vid_cap; + if ( ioctl( vid_fd, VIDIOCGCAP, &vid_cap ) < 0 ) + { + Error( "Failed to get video capabilities: %s", strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to get video capabilities %s: %s\n", device, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + if ( verbose ) + { + sprintf( output+strlen(output), "Video Capabilities\n" ); + sprintf( output+strlen(output), " Name: %s\n", vid_cap.name ); + sprintf( output+strlen(output), " Type: %d\n%s%s%s%s%s%s%s%s%s%s%s%s%s%s", vid_cap.type, + vid_cap.type&VID_TYPE_CAPTURE?" Can capture\n":"", + vid_cap.type&VID_TYPE_TUNER?" Can tune\n":"", + vid_cap.type&VID_TYPE_TELETEXT?" Does teletext\n":"", + vid_cap.type&VID_TYPE_OVERLAY?" Overlay onto frame buffer\n":"", + vid_cap.type&VID_TYPE_CHROMAKEY?" Overlay by chromakey\n":"", + vid_cap.type&VID_TYPE_CLIPPING?" Can clip\n":"", + vid_cap.type&VID_TYPE_FRAMERAM?" Uses the frame buffer memory\n":"", + vid_cap.type&VID_TYPE_SCALES?" Scalable\n":"", + vid_cap.type&VID_TYPE_MONOCHROME?" Monochrome only\n":"", + vid_cap.type&VID_TYPE_SUBCAPTURE?" Can capture subareas of the image\n":"", + vid_cap.type&VID_TYPE_MPEG_DECODER?" Can decode MPEG streams\n":"", + vid_cap.type&VID_TYPE_MPEG_ENCODER?" Can encode MPEG streams\n":"", + vid_cap.type&VID_TYPE_MJPEG_DECODER?" Can decode MJPEG streams\n":"", + vid_cap.type&VID_TYPE_MJPEG_ENCODER?" Can encode MJPEG streams\n":"" + ); + sprintf( output+strlen(output), " Video Channels: %d\n", vid_cap.channels ); + sprintf( output+strlen(output), " Audio Channels: %d\n", vid_cap.audios ); + sprintf( output+strlen(output), " Maximum Width: %d\n", vid_cap.maxwidth ); + sprintf( output+strlen(output), " Maximum Height: %d\n", vid_cap.maxheight ); + sprintf( output+strlen(output), " Minimum Width: %d\n", vid_cap.minwidth ); + sprintf( output+strlen(output), " Minimum Height: %d\n", vid_cap.minheight ); + } + else + { + sprintf( output+strlen(output), "N:%s,", vid_cap.name ); + sprintf( output+strlen(output), "T:%d,", vid_cap.type ); + sprintf( output+strlen(output), "nC:%d,", vid_cap.channels ); + sprintf( output+strlen(output), "nA:%d,", vid_cap.audios ); + sprintf( output+strlen(output), "mxW:%d,", vid_cap.maxwidth ); + sprintf( output+strlen(output), "mxH:%d,", vid_cap.maxheight ); + sprintf( output+strlen(output), "mnW:%d,", vid_cap.minwidth ); + sprintf( output+strlen(output), "mnH:%d,", vid_cap.minheight ); + } + + struct video_window vid_win; + if ( ioctl( vid_fd, VIDIOCGWIN, &vid_win ) < 0 ) + { + Error( "Failed to get window attributes: %s", strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to get window attributes: %s\n", strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + if ( verbose ) + { + sprintf( output+strlen(output), "Window Attributes\n" ); + sprintf( output+strlen(output), " X Offset: %d\n", vid_win.x ); + sprintf( output+strlen(output), " Y Offset: %d\n", vid_win.y ); + sprintf( output+strlen(output), " Width: %d\n", vid_win.width ); + sprintf( output+strlen(output), " Height: %d\n", vid_win.height ); + } + else + { + sprintf( output+strlen(output), "X:%d,", vid_win.x ); + sprintf( output+strlen(output), "Y:%d,", vid_win.y ); + sprintf( output+strlen(output), "W:%d,", vid_win.width ); + sprintf( output+strlen(output), "H:%d,", vid_win.height ); + } + + struct video_picture vid_pic; + if ( ioctl( vid_fd, VIDIOCGPICT, &vid_pic ) < 0 ) + { + Error( "Failed to get picture attributes: %s", strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to get picture attributes: %s\n", strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + if ( verbose ) + { + sprintf( output+strlen(output), "Picture Attributes\n" ); + sprintf( output+strlen(output), " Palette: %d - %s\n", vid_pic.palette, + vid_pic.palette==VIDEO_PALETTE_GREY?"Linear greyscale":( + vid_pic.palette==VIDEO_PALETTE_HI240?"High 240 cube (BT848)":( + vid_pic.palette==VIDEO_PALETTE_RGB565?"565 16 bit RGB":( + vid_pic.palette==VIDEO_PALETTE_RGB24?"24bit RGB":( + vid_pic.palette==VIDEO_PALETTE_RGB32?"32bit RGB":( + vid_pic.palette==VIDEO_PALETTE_RGB555?"555 15bit RGB":( + vid_pic.palette==VIDEO_PALETTE_YUV422?"YUV422 capture":( + vid_pic.palette==VIDEO_PALETTE_YUYV?"YUYV":( + vid_pic.palette==VIDEO_PALETTE_UYVY?"UVYV":( + vid_pic.palette==VIDEO_PALETTE_YUV420?"YUV420":( + vid_pic.palette==VIDEO_PALETTE_YUV411?"YUV411 capture":( + vid_pic.palette==VIDEO_PALETTE_RAW?"RAW capture (BT848)":( + vid_pic.palette==VIDEO_PALETTE_YUYV?"YUYV":( + vid_pic.palette==VIDEO_PALETTE_YUV422?"YUV422":( + vid_pic.palette==VIDEO_PALETTE_YUV422P?"YUV 4:2:2 Planar":( + vid_pic.palette==VIDEO_PALETTE_YUV411P?"YUV 4:1:1 Planar":( + vid_pic.palette==VIDEO_PALETTE_YUV420P?"YUV 4:2:0 Planar":( + vid_pic.palette==VIDEO_PALETTE_YUV410P?"YUV 4:1:0 Planar":"Unknown" + )))))))))))))))))); + sprintf( output+strlen(output), " Colour Depth: %d\n", vid_pic.depth ); + sprintf( output+strlen(output), " Brightness: %d\n", vid_pic.brightness ); + sprintf( output+strlen(output), " Hue: %d\n", vid_pic.hue ); + sprintf( output+strlen(output), " Colour :%d\n", vid_pic.colour ); + sprintf( output+strlen(output), " Contrast: %d\n", vid_pic.contrast ); + sprintf( output+strlen(output), " Whiteness: %d\n", vid_pic.whiteness ); + } + else + { + sprintf( output+strlen(output), "P:%d,", vid_pic.palette ); + sprintf( output+strlen(output), "D:%d,", vid_pic.depth ); + sprintf( output+strlen(output), "B:%d,", vid_pic.brightness ); + sprintf( output+strlen(output), "h:%d,", vid_pic.hue ); + sprintf( output+strlen(output), "Cl:%d,", vid_pic.colour ); + sprintf( output+strlen(output), "Cn:%d,", vid_pic.contrast ); + sprintf( output+strlen(output), "w:%d,", vid_pic.whiteness ); + } + + for ( int chan = 0; chan < vid_cap.channels; chan++ ) + { + struct video_channel vid_src; + vid_src.channel = chan; + if ( ioctl( vid_fd, VIDIOCGCHAN, &vid_src ) < 0 ) + { + Error( "Failed to get channel %d attributes: %s", chan, strerror(errno) ); + if ( verbose ) + sprintf( output, "Error, failed to get channel %d attributes: %s\n", chan, strerror(errno) ); + else + sprintf( output, "error%d\n", errno ); + return( false ); + } + if ( verbose ) + { + sprintf( output+strlen(output), "Channel %d Attributes\n", chan ); + sprintf( output+strlen(output), " Name: %s\n", vid_src.name ); + sprintf( output+strlen(output), " Channel: %d\n", vid_src.channel ); + sprintf( output+strlen(output), " Flags: %d\n%s%s", vid_src.flags, + vid_src.flags&VIDEO_VC_TUNER?" Channel has a tuner\n":"", + vid_src.flags&VIDEO_VC_AUDIO?" Channel has audio\n":"" + ); + sprintf( output+strlen(output), " Type: %d - %s\n", vid_src.type, + vid_src.type==VIDEO_TYPE_TV?"TV":( + vid_src.type==VIDEO_TYPE_CAMERA?"Camera":"Unknown" + )); + sprintf( output+strlen(output), " Format: %d - %s\n", vid_src.norm, + vid_src.norm==VIDEO_MODE_PAL?"PAL":( + vid_src.norm==VIDEO_MODE_NTSC?"NTSC":( + vid_src.norm==VIDEO_MODE_SECAM?"SECAM":( + vid_src.norm==VIDEO_MODE_AUTO?"AUTO":"Unknown" + )))); + } + else + { + sprintf( output+strlen(output), "n%d:%s,", chan, vid_src.name ); + sprintf( output+strlen(output), "C%d:%d,", chan, vid_src.channel ); + sprintf( output+strlen(output), "Fl%d:%x,", chan, vid_src.flags ); + sprintf( output+strlen(output), "T%d:%d", chan, vid_src.type ); + sprintf( output+strlen(output), "F%d:%d%s,", chan, vid_src.norm, chan==(vid_cap.channels-1)?"":"," ); + } + } + } return( true ); } @@ -1597,7 +1835,7 @@ int LocalCamera::PostCapture() Debug( 3, "Switching video source to %d", channels[next_channel] ); if ( vidioctl( vid_fd, VIDIOC_S_INPUT, &channels[next_channel] ) < 0 ) { - Error( "Failed to set camera source %d: %s", channel, strerror(errno) ); + Error( "Failed to set camera source %d: %s", channels[next_channel], strerror(errno) ); return( -1 ); }