NAME
meteor — video capture driver interfaceDESCRIPTION
The meteor driver defined a video capture interface. The meteor driver is no longer in the tree, but other devices support this interface so the interface portion is documented here.Meteor Capture Modes
The meteor capture driver has three modes of capture operation.- Conventional read(2)
interface.
This mode is the easiest and slowest to use. This mode is great for
capturing a single field at little programming cost.
In this mode, the user opens the device, sets the capture mode and size
(see:
METEORSETGEO
ioctl(2) call), and uses the read(2) system call to load the data into a buffer. meteor_read.c; read 400x300 RGB24 into a viewable PPM file#include <sys/fcntl.h> #include <machine/ioctl_meteor.h> extern int errno; #define ROWS 300 #define COLS 400 #define SIZE (ROWS * COLS * 4) main() { struct meteor_geomet geo; char buf[SIZE],b[4],header[16],*p; int i,o,c; if ((i = open("/dev/meteor0", O_RDONLY)) < 0) { printf("open failed: %d\n", errno); exit(1); } /* set up the capture type and size */ geo.rows = ROWS; geo.columns = COLS; geo.frames = 1; geo.oformat = METEOR_GEO_RGB24 ; if (ioctl(i, METEORSETGEO, &geo) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } c = METEOR_FMT_NTSC; if (ioctl(i, METEORSFMT, &c) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } c = METEOR_INPUT_DEV0; if (ioctl(i, METEORSINPUT, &c) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } if ((c=read(i, &buf[0], SIZE)) < SIZE) { printf("read failed %d %d %d\n", c, i, errno); close(i); exit(1); } close(i); if ((o = open("rgb24.ppm", O_WRONLY | O_CREAT, 0644)) < 0) { printf("ppm open failed: %d\n", errno); exit(1); } /* make PPM header and save to file */ strcpy(&header[0], "P6 400 300 255 "); header[2] = header[6] = header[10] = header[14] = '\n'; write (o, &header[0], 15); /* save the RGB data to PPM file */ for (p = &buf[0]; p < &buf[SIZE]; ) { b[2] = *p++; /* blue */ b[1] = *p++; /* green */ b[0] = *p++; /* red */ *p++; /* NULL byte */ write(o,&b[0], 3); /* not very efficient */ } close(o); exit(0); }
- Memory mapped single capture or unsynchronized continuous
capture.
The single capture mode is designed for conferencing tools such as
nv. These tools need to control the starting
of the image capture and also need several frames a second. The continuous
capture mode is designed for applications that want free-running data.
In this mode, the user opens the device, sets the capture mode and size
(see:
METEORSETGEO
ioctl(2) call), mmap(2)s the frame buffer memory into the user process space, and issues either the single-capture or the continuous capture call (see:METEORCAPTUR
ioctl(2) call) to load the data into the memory mapped buffer. As explained in theMETEORCAPTUR
ioctl(2) call, the single frame capture ioctl(2) will block until the capture is complete, the continuous capture will return immediately. meteor_mmap_single_continuous.c#include <sys/types.h> #include <sys/mman.h> #include <sys/fcntl.h> #include <machine/ioctl_meteor.h> extern int errno; #define ROWS 480 #define COLS 640 #define SIZE (ROWS * COLS * 2) main() { struct meteor_geomet geo; char buf[SIZE]; char *mmbuf; int i,c; if ((i = open("/dev/meteor0", O_RDONLY)) < 0) { printf("open failed\n"); exit(1); } geo.rows = ROWS; geo.columns = COLS; geo.frames = 1; geo.oformat = METEOR_GEO_RGB16 ; if (ioctl(i, METEORSETGEO, &geo) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } c = METEOR_FMT_NTSC; if (ioctl(i, METEORSFMT, &c) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } c = METEOR_INPUT_DEV0; if (ioctl(i, METEORSINPUT, &c) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } mmbuf=(char *)mmap((caddr_t)0, SIZE, PROT_READ, MAP_SHARED, i, (off_t)0); #ifdef SINGLE_MODE /* single frame capture */ c = METEOR_CAP_SINGLE ; ioctl(i, METEORCAPTUR, &c); /* wait for the frame */ /* directly access the frame buffer array data in mmbuf */ #else /* continuous frame capture */ c = METEOR_CAP_CONTINOUS ; ioctl(i, METEORCAPTUR, &c); /* returns immediately */ /* directly access the frame buffer array data in mmbuf */ c = METEOR_CAP_STOP_CONT ; ioctl(i, METEORCAPTUR, &c); /* close will also stop capture */ #endif close(i); exit(0); }
- Memory mapped, multi-frame ring buffer synchronize
capture.
This continuous capture mode is synchronized with the application that
processes up to 32 frames. This gives the advantages of both single and
continuous capture modes.
The kernel notifies the application of a new data by raising an application
defined signal. The driver also shares a structure with the application
that allows them to communicate which frame has been written by the kernel
and which frame has been read by the application.
The shared structure starts on the first page after your data. The structure
address can be found by calculation:
or
(number_rows * number_columns * pixel_depth + 4095) & 0xfffff000
The shared structure is of type struct meteor_mem. The two most important fields are called active and num_active_buf. active is a bitmap of frames written by the kernel. num_active_bufs is a count of frames marked in the active field. When a frame is read in by the driver, the num_active_bufs count is tested, if this count is below the threshold of number of active frames (value in meteor_mem's hiwat variable), the bit representing frame number in the buffer is stored in the active variable, the num_active_bufs is incremented, the kernel then raises the specified signal to activate the user application. The user application's responsibility when getting the signal is to check the active bitmap to determine the lowest active frame, use the data as the application desires, clear the bitmap entry for that frame, and decrement the num_active_bufs. If the threshold of number of active frames (hiwat) has been exceeded, no new frames or signal from the kernel will occur until the num_active_bufs is less than or equal to lowat. The driver loads the frames in a round-robin fashion. It is expected that the user removes them in the same order. The driver does not check to see if the frame is already active. The frame_size and number of frames in the buffer are also provided to the meteor_mem structure, but changing these fields in the application will not change the operation of the driver. In programming for this mode, the user opens the device, sets the geometry, mmap(2)s the data/common control structure, then starts the continuous capture mode. A special signal catcher is required to process the frames as they are read by the kernel. When specifying the geometry (see:((number_rows * number_columns * pixel_depth + 4095)/4096) * 4096
METEORSETGEO
ioctl(2) call), it is important that the number of frames is set greater than 1. skeleton_capture_n.c#include <sys/types.h> #include <sys/mman.h> #include <sys/fcntl.h> #include <sys/signal.h> #include <machine/ioctl_meteor.h> int video; /* made global if you wish to stop capture in signal handler */ caddr_t data_frames; struct meteor_mem *common_mem; extern int errno; #define FRAME_MAX void usr2_catcher() { #ifdef SIGNAL_STOP struct meteor_capframe capframe; /* for ioctl */ #endif char *frame; /* find frame */ frame = (char *) (data_frames + sig_cnt * common_mem->frame_size) ; /* add frame processing here */ /* deactivate frame */ common_mem->active &= ~(1 << (sig_cnt % 16)); common_mem->num_active_bufs--; /* process next frame on next interrupt */ sig_cnt = ((sig_cnt+1) % FRAME_MAX); #ifdef SIGNAL_STOP if (some_condition_requiring_stopping) { capframe.command=METEOR_CAP_STOP_FRAMES; if (ioctl(i, METEORCAPFRM, &capframe) < 0) { printf("METEORCAPFRM failed %d\n", errno); exit(1); } } #endif } main() { struct meteor_geomet geo; int height, width, depth, frames, size; struct meteor_capframe capframe; if ((i = open("/dev/meteor0", O_RDONLY)) < 0) { printf("open failed\n"); exit(1); } printf("test %d %d\n", errno, i); height = geo.rows = 120; width= geo.columns = 320; frames = geo.frames = FRAME_MAX; depth = 2; /* 2 bytes per pixel for RGB*/ geo.oformat = METEOR_GEO_RGB16; if (ioctl(i, METEORSETGEO, &geo) < 0) { printf("METEORSETGEO failed %d\n", errno); exit(1); } c = METEOR_FMT_NTSC; if (ioctl(i, METEORSFMT, &c) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } c = METEOR_INPUT_DEV0; if (ioctl(i, METEORSINPUT, &c) < 0) { printf("ioctl failed: %d\n", errno); exit(1); } size = ((width*height*depth*frames+4095)/4096)*4096; /* add one page after data for meteor_mem */ data_frames = mmap((caddr_t)0, size + 4096, PROT_READ | PROT_WRITE, MAP_SHARED, i, (off_t)0); if (data_frames == (caddr_t) MAP_FAILED) return (0); /* common_mem is located at page following data */ common_mem = (struct meteor_mem *) (y + size); signal(SIGUSR2, usr2_catcher); /* catch new frame message */ capframe.command=METEOR_CAP_N_FRAMES; capframe.signal=SIGUSR2; capframe.lowat=12; /* must be < hiwat */ capframe.hiwat=14; /* must be < FRAME_MAX */ /* start the sync capture */ if (ioctl(i, METEORCAPFRM, &capframe) < 0) { printf("METEORCAPFRM failed %d\n", errno); exit(1); } /* this is the background working area, or you can sleep */ /* to stop capture */ capframe.command=METEOR_CAP_STOP_FRAMES; if (ioctl(i, METEORCAPFRM, &capframe) < 0) { printf("METEORCAPFRM failed %d\n", errno); exit(1); } }
Meteor IOCTL Call and Parameters
The meteor capture driver has ioctl(2) requests for capturing, reading card status, for setting and reading the geometry, and for setting and reading the attributes.IT IS VERY
IMPORTANT TO CHECK FOR ERRORS ON THESE RETURNING IOCTLs.
Errors indicate that something is very wrong with the
ioctl(2) and the application should not attempt
to proceed further with capturing. The meteor
capture driver still makes attempts to stop the next capture step if an error
occurred in a previous step but was ignored by the application programmer.
-
ioctl(2) requests
METEORSETGEO
andMETEORGETGEO
METEORSETGEO
andMETEORGETGEO
are used to set and read the input size, input device, and output format for frame capture. These ioctl(2) routines use the meteor_geomet structure that has the following entries:- rows
- number of rows (lines high) in output image
- columns
- number of pixels in a row (width) in output image
- frames
- number of frames in buffer. Should be 1, unless using
the multi-framed synchronous capture mode
(
METEORCAPFRM
) which REQUIRES frames to be larger than 1. Note: if rows, columns or frames is not changed, then the existing values are used. The system defaults is 640x480x1. - oformat
- you may choose one of the following output format:
METEOR_GEO_RGB16
- (RGB 16 bits xrrrrrgg gggbbbbb default)
METEOR_GEO_RGB24
- (RGB 24 bits packed in 32 bits: 00000000 rrrrrrrr gggggggg bbbbbbbb)
METEOR_GEO_YUV_PACKED
- (4-2-2 YUV 16 bits packed byte format: u0 y0 v0 y1 u1 y2 v1 y3 ...)
METEOR_GEO_YUV_PLANER
- (4-2-2 YUV 16 bits planer format: rows * columns bytes of y rows * column / 4 bytes of even u rows * column / 4 bytes of even v rows * column / 4 bytes of odd u rows * column / 4 bytes of odd v)
METEORSETGEO
ioctl(2) will fail if more than one entry from a category is selected. It is highly recommended that aMETEORSETGEO
is done before capturing data because you cannot guarantee the initial mode the card. TheMETEORSETGEO
will also attempt to reallocate a new contiguous kernel buffer if the new geometry exceeds the old geometry. On the other hand, if the new geometry will fit in the existing buffer, the existing buffer is used. IfMETEORSETGEO
fails the ioctl(2) will return a value of -1 and the external variable errno will be set to:- [
EINVAL
] - invalid meteor_geomet structure pointer, rows, columns, frames were invalid.
- [
ENOMEM
] - could not allocate the contiguous block.
-
ioctl(2) requests
METEORSFMT
andMETEORGFMT
METEORSFMT
andMETEORGFMT
are used to set and read the camera input standard format. Possible formats are:METEOR_FMT_NTSC
- NTSC (default mode)
METEOR_FMT_PAL
- PAL
METEOR_FMT_SECAM
- SECAM
METEOR_FMT_AUTOMODE
- Autodetect.
-
ioctl(2) requests
METEORSINPUT
andMETEORGINPUT
METEORSINPUT
andMETEORGINPUT
are used to set and read the camera input device. Using the DB9 connector on the Meteor card, 4 input devices can be connected and an input camera can be selected with this ioctl(2). Possible formats are:METEOR_INPUT_DEV0
- (default if none specified)
METEOR_INPUT_DEV_RCA
- (same as METEOR_INPUT_DEV0)
METEOR_INPUT_DEV1
METEOR_INPUT_DEV2
METEOR_INPUT_DEV_SVIDEO
- (same as METEOR_INPUT_DEV2)
-
ioctl(2) request
METEORSTATUS
METEORSTATUS
is used to read the status of the Meteor capture card and returns the following information:METEOR_STATUS_ID_MASK
4 bit ID of the SAA7196 scaler chip. METEOR_STATUS_DIR
0 = scaler uses internal source. 1 = scaler uses external data of expansion bus. METEOR_STATUS_OEF
0 = even field detected. 1 = odd field detected. METEOR_STATUS_SVP
VRAM Port state: 0 = inputs HFL and INCADDR inactive. 1 = inputs HFL and INCADDR active. METEOR_STATUS_STTC
0 = TV horizontal time constant (slow). 1 = VCR horizontal time constant (fast). METEOR_STATUS_HCLK
0 = Horizontal Phase Lock Loop locked. 1 = Horizontal Phase Lock Loop unlocked. METEOR_STATUS_FIDT
0 = 50 Hz Field detected. 1 = 60 Hz Field detected. METEOR_STATUS_ALTD
0 = no line alternating color burst detected. 1 = line alternating color burst detected (PAL/SECAM). METEOR_STATUS_CODE
0 = no color information detected. 1 = color information detected. -
ioctl(2) request
METEORCAPTUR
METEORCAPTUR
is used to single frame capture or unsynchronized continuous capture. The single frame capture ioctl(2) request will return only after a frame has been captured and transferred to the frame buffer. The unsynchronized continuous capture will return immediately and data is directly deposited into the buffer when it is available. Since this is unsynchronized, it is possible the data is being written by the kernel while being read by the application. These ioctl(2) routines use the following settings:METEOR_CAP_SINGLE
- capture one frame
METEOR_CAP_CONTINOUS
- unsynchronized continuous capture
METEOR_CAP_STOP_CONT
- stop the unsynchronized continuous capture
METEORCAPTUR
fails the ioctl(2) will return a value of -1 and the external variable errno will be set to:- [
EINVAL
] - invalid capture command value
- [
ENXIO
] - there is not internal buffer to hold the frame. This indicates the previous set geometry ioctl(2) failed.
- [
EIO
] - card is already capturing.
-
ioctl(2) request
METEORCAPFRM
METEORCAPFRM
is used for synchronous capture of multiple frames. This ioctl(2) routine uses the meteor_capture structure that has the following entries:- command
- possible values for
command are:
METEOR_CAP_STOP_FRAMES
- stop the capture; does not use the other variable in structure.
METEOR_CAP_N_FRAMES
- start the capture using the other variables in the structure as inputs
- signal
- signal to send to application when a new frame has been captured. This signal will only be raised if the captured frame is saved.
- lowat
- see below
- hiwat
- see below
METEORCAPFRM
fails the ioctl(2) will return a value of -1 and the external variable errno will be set to:- [
EINVAL
] - invalid meteor_geomet structure pointer or bad command.
- [
ENXIO
] - there is not internal buffer to hold the frame. This indicates the previous set geometry ioctl(2) failed.
- [
EIO
] - card is already capturing.
-
ioctl(2) requests
METEORSCHCV
andMETEORGCHCV
METEORSCHCV
andMETEORGCHCV
are used to set and get the chrominance gain control and effects the UV output amplitude. IfMETEORSCHCV
orMETEORGCHCV
fails the ioctl(2) will return a value of -1 and the external variable errno will be set to:- [
EINVAL
] - invalid unsigned char pointer.
- [
-
ioctl(2) requests
METEORGHUE
andMETEORSHUE
METEORGHUE
andMETEORSHUE
are used to get and set the hue. The signed character has legal values are from +127 which represent +178.6 degrees to -128 which represents -180 degrees. IfMETEORGHUE
orMETEORSHUE
fails the ioctl(2) will return a value of -1 and the external variable errno will be set to:- [
EINVAL
] - invalid signed char pointer.
- [
-
ioctl(2) requests
METEORSCOUNT
andMETEORGCOUNT
METEORGCOUNT
is used to get the count of frame errors, DMA errors and count of the number of frames captured that have occurred since the device was opened.METEORSCOUNT
can be used to reinitialize the counters. This ioctl(2) routines use the meteor_counts structure that has the following entries:- fifo_errors
- number of FIFO errors since device was opened.
- dma_errors
- number of DMA errors since device was opened.
- frame_count
- number of frames captured since device was opened.
METEORSCOUNT
orMETEORGCOUNT
fails the ioctl(2) will return a value of -1 and the external variable errno will be set to:- [
EINVAL
] - invalid meteor_counts structure pointer.
AUTHORS
Jim Lowe <[email protected]>Mark Tinguely <[email protected]>
BUGS
The meteor driver no longer works at all.August 15, 1995 | Debian |