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video_common.c
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video_common.c
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/* video_common.c
*
* Video stream functions for motion.
* Copyright 2000 by Jeroen Vreeken ([email protected])
* 2006 by Krzysztof Blaszkowski ([email protected])
* 2007 by Angel Carpintero ([email protected])
* This software is distributed under the GNU public license version 2
* See also the file 'COPYING'.
*
*/
/* For rotation */
#include "rotate.h" /* Already includes motion.h */
#include "video.h"
#include "jpegutils.h"
typedef unsigned char uint8_t;
typedef unsigned short int uint16_t;
typedef unsigned int uint32_t;
#define CLAMP(x) ((x) < 0 ? 0 : ((x) > 255) ? 255 : (x))
typedef struct {
int is_abs;
int len;
int val;
} code_table_t;
/**
* sonix_decompress_init
* pre-calculates a locally stored table for efficient huffman-decoding.
*
* Each entry at index x in the table represents the codeword
* present at the MSB of byte x.
*
*/
static void sonix_decompress_init(code_table_t * table)
{
int i;
int is_abs, val, len;
for (i = 0; i < 256; i++) {
is_abs = 0;
val = 0;
len = 0;
if ((i & 0x80) == 0) {
/* code 0 */
val = 0;
len = 1;
} else if ((i & 0xE0) == 0x80) {
/* code 100 */
val = +4;
len = 3;
} else if ((i & 0xE0) == 0xA0) {
/* code 101 */
val = -4;
len = 3;
} else if ((i & 0xF0) == 0xD0) {
/* code 1101 */
val = +11;
len = 4;
} else if ((i & 0xF0) == 0xF0) {
/* code 1111 */
val = -11;
len = 4;
} else if ((i & 0xF8) == 0xC8) {
/* code 11001 */
val = +20;
len = 5;
} else if ((i & 0xFC) == 0xC0) {
/* code 110000 */
val = -20;
len = 6;
} else if ((i & 0xFC) == 0xC4) {
/* code 110001xx: unknown */
val = 0;
len = 8;
} else if ((i & 0xF0) == 0xE0) {
/* code 1110xxxx */
is_abs = 1;
val = (i & 0x0F) << 4;
len = 8;
}
table[i].is_abs = is_abs;
table[i].val = val;
table[i].len = len;
}
}
/**
* sonix_decompress
* Decompresses an image encoded by a SN9C101 camera controller chip.
*
* IN width
* height
* inp pointer to compressed frame (with header already stripped)
* OUT outp pointer to decompressed frame
*
* Returns 0 if the operation was successful.
* Returns <0 if operation failed.
*
*/
int sonix_decompress(unsigned char *outp, unsigned char *inp, int width, int height)
{
int row, col;
int val;
int bitpos;
unsigned char code;
unsigned char *addr;
/* Local storage */
static code_table_t table[256];
static int init_done = 0;
if (!init_done) {
init_done = 1;
sonix_decompress_init(table);
/* Do sonix_decompress_init first! */
//return -1; // so it has been done and now fall through
}
bitpos = 0;
for (row = 0; row < height; row++) {
col = 0;
/* First two pixels in first two rows are stored as raw 8-bit. */
if (row < 2) {
addr = inp + (bitpos >> 3);
code = (addr[0] << (bitpos & 7)) | (addr[1] >> (8 - (bitpos & 7)));
bitpos += 8;
*outp++ = code;
addr = inp + (bitpos >> 3);
code = (addr[0] << (bitpos & 7)) | (addr[1] >> (8 - (bitpos & 7)));
bitpos += 8;
*outp++ = code;
col += 2;
}
while (col < width) {
/* Get bitcode from bitstream. */
addr = inp + (bitpos >> 3);
code = (addr[0] << (bitpos & 7)) | (addr[1] >> (8 - (bitpos & 7)));
/* Update bit position. */
bitpos += table[code].len;
/* Calculate pixel value. */
val = table[code].val;
if (!table[code].is_abs) {
/* Value is relative to top and left pixel. */
if (col < 2) {
/* Left column: relative to top pixel. */
val += outp[-2 * width];
} else if (row < 2) {
/* Top row: relative to left pixel. */
val += outp[-2];
} else {
/* Main area: average of left pixel and top pixel. */
val += (outp[-2] + outp[-2 * width]) / 2;
}
}
/* Store pixel */
*outp++ = CLAMP(val);
col++;
}
}
return 0;
}
/**
* bayer2rgb24
* BAYER2RGB24 ROUTINE TAKEN FROM:
*
* Sonix SN9C10x based webcam basic I/F routines
* Takafumi Mizuno <[email protected]>
*
*/
void bayer2rgb24(unsigned char *dst, unsigned char *src, long int width, long int height)
{
long int i;
unsigned char *rawpt, *scanpt;
long int size;
rawpt = src;
scanpt = dst;
size = width * height;
for (i = 0; i < size; i++) {
if (((i / width) & 1) == 0) { // %2 changed to & 1
if ((i & 1) == 0) {
/* B */
if ((i > width) && ((i % width) > 0)) {
*scanpt++ = *rawpt; /* B */
*scanpt++ = (*(rawpt - 1) + *(rawpt + 1) +
*(rawpt + width) + *(rawpt - width)) / 4; /* G */
*scanpt++ = (*(rawpt - width - 1) + *(rawpt - width + 1) +
*(rawpt + width - 1) + *(rawpt + width + 1)) / 4; /* R */
} else {
/* First line or left column. */
*scanpt++ = *rawpt; /* B */
*scanpt++ = (*(rawpt + 1) + *(rawpt + width)) / 2; /* G */
*scanpt++ = *(rawpt + width + 1); /* R */
}
} else {
/* (B)G */
if ((i > width) && ((i % width) < (width - 1))) {
*scanpt++ = (*(rawpt - 1) + *(rawpt + 1)) / 2; /* B */
*scanpt++ = *rawpt; /* G */
*scanpt++ = (*(rawpt + width) + *(rawpt - width)) / 2; /* R */
} else {
/* First line or right column. */
*scanpt++ = *(rawpt - 1); /* B */
*scanpt++ = *rawpt; /* G */
*scanpt++ = *(rawpt + width); /* R */
}
}
} else {
if ((i & 1) == 0) {
/* G(R) */
if ((i < (width * (height - 1))) && ((i % width) > 0)) {
*scanpt++ = (*(rawpt + width) + *(rawpt - width)) / 2; /* B */
*scanpt++ = *rawpt; /* G */
*scanpt++ = (*(rawpt - 1) + *(rawpt + 1)) / 2; /* R */
} else {
/* Bottom line or left column. */
*scanpt++ = *(rawpt - width); /* B */
*scanpt++ = *rawpt; /* G */
*scanpt++ = *(rawpt + 1); /* R */
}
} else {
/* R */
if (i < (width * (height - 1)) && ((i % width) < (width - 1))) {
*scanpt++ = (*(rawpt - width - 1) + *(rawpt - width + 1) +
*(rawpt + width - 1) + *(rawpt + width + 1)) / 4; /* B */
*scanpt++ = (*(rawpt - 1) + *(rawpt + 1) +
*(rawpt - width) + *(rawpt + width)) / 4; /* G */
*scanpt++ = *rawpt; /* R */
} else {
/* Bottom line or right column. */
*scanpt++ = *(rawpt - width - 1); /* B */
*scanpt++ = (*(rawpt - 1) + *(rawpt - width)) / 2; /* G */
*scanpt++ = *rawpt; /* R */
}
}
}
rawpt++;
}
}
/**
* conv_yuv422to420p
*
*
*/
void conv_yuv422to420p(unsigned char *map, unsigned char *cap_map, int width, int height)
{
unsigned char *src, *dest, *src2, *dest2;
int i, j;
/* Create the Y plane. */
src = cap_map;
dest = map;
for (i = width * height; i > 0; i--) {
*dest++ = *src;
src += 2;
}
/* Create U and V planes. */
src = cap_map + 1;
src2 = cap_map + width * 2 + 1;
dest = map + width * height;
dest2 = dest + (width * height) / 4;
for (i = height / 2; i > 0; i--) {
for (j = width / 2; j > 0; j--) {
*dest = ((int) *src + (int) *src2) / 2;
src += 2;
src2 += 2;
dest++;
*dest2 = ((int) *src + (int) *src2) / 2;
src += 2;
src2 += 2;
dest2++;
}
src += width * 2;
src2 += width * 2;
}
}
/**
* conv_uyvyto420p
*
*
*/
void conv_uyvyto420p(unsigned char *map, unsigned char *cap_map, unsigned int width, unsigned int height)
{
uint8_t *pY = map;
uint8_t *pU = pY + (width * height);
uint8_t *pV = pU + (width * height) / 4;
uint32_t uv_offset = width * 2 * sizeof(uint8_t);
uint32_t ix, jx;
for (ix = 0; ix < height; ix++) {
for (jx = 0; jx < width; jx += 2) {
uint16_t calc;
if ((ix&1) == 0) {
calc = *cap_map;
calc += *(cap_map + uv_offset);
calc /= 2;
*pU++ = (uint8_t) calc;
}
cap_map++;
*pY++ = *cap_map++;
if ((ix&1) == 0) {
calc = *cap_map;
calc += *(cap_map + uv_offset);
calc /= 2;
*pV++ = (uint8_t) calc;
}
cap_map++;
*pY++ = *cap_map++;
}
}
}
/**
* conv_rgb24toyuv420p
*
*
*/
void conv_rgb24toyuv420p(unsigned char *map, unsigned char *cap_map, int width, int height)
{
unsigned char *y, *u, *v;
unsigned char *r, *g, *b;
int i, loop;
b = cap_map;
g = b + 1;
r = g + 1;
y = map;
u = y + width * height;
v = u + (width * height) / 4;
memset(u, 0, width * height / 4);
memset(v, 0, width * height / 4);
for (loop = 0; loop < height; loop++) {
for (i = 0; i < width; i += 2) {
*y++ = (9796 ** r + 19235 ** g + 3736 ** b) >> 15;
*u += ((-4784 ** r - 9437 ** g + 14221 ** b) >> 17) + 32;
*v += ((20218 ** r - 16941 ** g - 3277 ** b) >> 17) + 32;
r += 3;
g += 3;
b += 3;
*y++ = (9796 ** r + 19235 ** g + 3736 ** b) >> 15;
*u += ((-4784 ** r - 9437 ** g + 14221 ** b) >> 17) + 32;
*v += ((20218 ** r - 16941 ** g - 3277 ** b) >> 17) + 32;
r += 3;
g += 3;
b += 3;
u++;
v++;
}
if ((loop & 1) == 0) {
u -= width / 2;
v -= width / 2;
}
}
}
/**
* mjpegtoyuv420p
*
* Return values
* -1 on fatal error
* 0 on success
* 2 if jpeg lib threw a "corrupt jpeg data" warning.
* in this case, "a damaged output image is likely."
*/
int mjpegtoyuv420p(unsigned char *map, unsigned char *cap_map, int width, int height, unsigned int size)
{
uint8_t *yuv[3];
unsigned char *y, *u, *v;
int loop, ret;
yuv[0] = mymalloc(width * height * sizeof(yuv[0][0]));
yuv[1] = mymalloc(width * height / 4 * sizeof(yuv[1][0]));
yuv[2] = mymalloc(width * height / 4 * sizeof(yuv[2][0]));
ret = decode_jpeg_raw(cap_map, size, 0, 420, width, height, yuv[0], yuv[1], yuv[2]);
if (ret == 1) {
MOTION_LOG(CRT, TYPE_VIDEO, NO_ERRNO, "%s: Corrupt image ... continue");
ret = 2;
}
y = map;
u = y + width * height;
v = u + (width * height) / 4;
memset(y, 0, width * height);
memset(u, 0, width * height / 4);
memset(v, 0, width * height / 4);
for(loop = 0; loop < width * height; loop++)
*map++ = yuv[0][loop];
for(loop = 0; loop < width * height / 4; loop++)
*map++ = yuv[1][loop];
for(loop = 0; loop < width * height / 4; loop++)
*map++ = yuv[2][loop];
free(yuv[0]);
free(yuv[1]);
free(yuv[2]);
return ret;
}
#define MAX2(x, y) ((x) > (y) ? (x) : (y))
#define MIN2(x, y) ((x) < (y) ? (x) : (y))
/* Constants used by auto brightness feature
* Defined as constant to make it easier for people to tweak code for a
* difficult camera.
* The experience gained from people could help improving the feature without
* adding too many new options.
* AUTOBRIGHT_HYSTERESIS sets the minimum the light intensity must change before
* we adjust brigtness.
* AUTOBRIGHTS_DAMPER damps the speed with which we adjust the brightness
* When the brightness changes a lot we step in large steps and as we approach the
* target value we slow down to avoid overshoot and oscillations. If the camera
* adjusts too slowly decrease the DAMPER value. If the camera oscillates try
* increasing the DAMPER value. DAMPER must be minimum 1.
* MAX and MIN are the max and min values of brightness setting we will send to
* the camera device.
*/
#define AUTOBRIGHT_HYSTERESIS 10
#define AUTOBRIGHT_DAMPER 5
#define AUTOBRIGHT_MAX 255
#define AUTOBRIGHT_MIN 0
/**
* vid_do_autobright
*/
int vid_do_autobright(struct context *cnt, struct video_dev *viddev)
{
int brightness_window_high;
int brightness_window_low;
int brightness_target;
int i, j = 0, avg = 0, step = 0;
unsigned char *image = cnt->imgs.image_virgin; /* Or cnt->current_image ? */
int make_change = 0;
if (cnt->conf.brightness)
brightness_target = cnt->conf.brightness;
else
brightness_target = 128;
brightness_window_high = MIN2(brightness_target + AUTOBRIGHT_HYSTERESIS, 255);
brightness_window_low = MAX2(brightness_target - AUTOBRIGHT_HYSTERESIS, 1);
for (i = 0; i < cnt->imgs.motionsize; i += 101) {
avg += image[i];
j++;
}
avg = avg / j;
/* Average is above window - turn down brightness - go for the target. */
if (avg > brightness_window_high) {
step = MIN2((avg - brightness_target) / AUTOBRIGHT_DAMPER + 1, viddev->brightness - AUTOBRIGHT_MIN);
if (viddev->brightness > step + 1 - AUTOBRIGHT_MIN) {
viddev->brightness -= step;
make_change = 1;
}
} else if (avg < brightness_window_low) {
/* Average is below window - turn up brightness - go for the target. */
step = MIN2((brightness_target - avg) / AUTOBRIGHT_DAMPER + 1, AUTOBRIGHT_MAX - viddev->brightness);
if (viddev->brightness < AUTOBRIGHT_MAX - step) {
viddev->brightness += step;
make_change = 1;
}
}
return make_change;
}
/*****************************************************************************
Wrappers calling the actual capture routines
*****************************************************************************/
#ifndef WITHOUT_V4L
/*
* Big lock for vid_start to ensure exclusive access to viddevs while adding
* devices during initialization of each thread.
*/
static pthread_mutex_t vid_mutex;
/*
* Here we setup the viddevs structure which is used globally in the vid_*
* functions.
*/
static struct video_dev *viddevs = NULL;
/**
* vid_init
*
* Called from motion.c at the very beginning before setting up the threads.
* Function prepares the vid_mutex.
*/
void vid_init(void)
{
pthread_mutex_init(&vid_mutex, NULL);
}
/**
* vid_cleanup
*
* vid_cleanup is called from motion.c when Motion is stopped or restarted.
*/
void vid_cleanup(void)
{
pthread_mutex_destroy(&vid_mutex);
}
#endif /* WITHOUT_V4L */
/**
* vid_close
*
* vid_close is called from motion.c when a Motion thread is stopped or restarted.
*/
void vid_close(struct context *cnt)
{
#ifndef WITHOUT_V4L
struct video_dev *dev = viddevs;
struct video_dev *prev = NULL;
#endif /* WITHOUT_V4L */
/* Cleanup the netcam part */
if (cnt->netcam) {
MOTION_LOG(INF, TYPE_VIDEO, NO_ERRNO, "%s: calling netcam_cleanup");
netcam_cleanup(cnt->netcam, 0);
cnt->netcam = NULL;
return;
}
#ifndef WITHOUT_V4L
/* Cleanup the v4l part */
pthread_mutex_lock(&vid_mutex);
while (dev) {
if (dev->fd == cnt->video_dev)
break;
prev = dev;
dev = dev->next;
}
pthread_mutex_unlock(&vid_mutex);
/* Set it as closed in thread context. */
cnt->video_dev = -1;
if (dev == NULL) {
MOTION_LOG(CRT, TYPE_VIDEO, NO_ERRNO, "%s: Unable to find video device");
return;
}
if (--dev->usage_count == 0) {
MOTION_LOG(NTC, TYPE_VIDEO, NO_ERRNO, "%s: Closing video device %s",
dev->video_device);
#ifdef MOTION_V4L2
if (dev->v4l2) {
v4l2_close(dev);
v4l2_cleanup(dev);
} else {
#endif
close(dev->fd);
munmap(viddevs->v4l_buffers[0], dev->size_map);
#ifdef MOTION_V4L2
}
#endif
dev->fd = -1;
pthread_mutex_lock(&vid_mutex);
/* Remove from list */
if (prev == NULL)
viddevs = dev->next;
else
prev->next = dev->next;
pthread_mutex_unlock(&vid_mutex);
pthread_mutexattr_destroy(&dev->attr);
pthread_mutex_destroy(&dev->mutex);
free(dev);
} else {
MOTION_LOG(NTC, TYPE_VIDEO, NO_ERRNO, "%s: Still %d users of video device %s, so we don't close it now",
dev->usage_count, dev->video_device);
/*
* There is still at least one thread using this device
* If we own it, release it.
*/
if (dev->owner == cnt->threadnr) {
dev->frames = 0;
dev->owner = -1;
pthread_mutex_unlock(&dev->mutex);
}
}
#endif /* !WITHOUT_V4L */
}
#ifndef WITHOUT_V4L
/**
* vid_v4lx_start
*
* Called from vid_start setup the V4L/V4L2 capture device
* The function does the following:
*
* - Setup basic V4L/V4L2 properties incl palette incl setting
* - Open the device
* - Returns the device number.
*
* Parameters:
* cnt Pointer to the context for this thread
*
* "Global" variable
* viddevs The viddevs struct is "global" within the context of video.c
* and used in functions vid_*.
* vid_mutex Mutex needed to handle exclusive access to the viddevs struct when
* each thread adds a new video device during startup calling vid_start
*
* Returns
* device number
* -1 if failed to open device.
* -3 image dimensions are not modulo 8
*/
static int vid_v4lx_start(struct context *cnt)
{
struct config *conf = &cnt->conf;
int fd = -1;
struct video_dev *dev;
int width, height, input, norm, tuner_number;
unsigned long frequency;
/*
* We use width and height from conf in this function. They will be assigned
* to width and height in imgs here, and cap_width and cap_height in
* rotate_data won't be set until in rotate_init.
* Motion requires that width and height is a multiple of 8 so we check
* for this first.
*/
if (conf->width % 8) {
MOTION_LOG(ERR, TYPE_VIDEO, NO_ERRNO, "%s: config image width (%d) is not modulo 8",
conf->width);
return -3;
}
if (conf->height % 8) {
MOTION_LOG(ERR, TYPE_VIDEO, NO_ERRNO, "%s: config image height (%d) is not modulo 8",
conf->height);
return -3;
}
width = conf->width;
height = conf->height;
input = conf->input;
norm = conf->norm;
frequency = conf->frequency;
tuner_number = conf->tuner_number;
pthread_mutex_lock(&vid_mutex);
/*
* Transfer width and height from conf to imgs. The imgs values are the ones
* that is used internally in Motion. That way, setting width and height via
* http remote control won't screw things up.
*/
cnt->imgs.width = width;
cnt->imgs.height = height;
/*
* First we walk through the already discovered video devices to see
* if we have already setup the same device before. If this is the case
* the device is a Round Robin device and we set the basic settings
* and return the file descriptor.
*/
dev = viddevs;
while (dev) {
if (!strcmp(conf->video_device, dev->video_device)) {
dev->usage_count++;
cnt->imgs.type = dev->v4l_fmt;
switch (cnt->imgs.type) {
case VIDEO_PALETTE_GREY:
cnt->imgs.motionsize = width * height;
cnt->imgs.size = width * height;
break;
case VIDEO_PALETTE_YUYV:
case VIDEO_PALETTE_RGB24:
case VIDEO_PALETTE_YUV422:
cnt->imgs.type = VIDEO_PALETTE_YUV420P;
case VIDEO_PALETTE_YUV420P:
cnt->imgs.motionsize = width * height;
cnt->imgs.size = (width * height * 3) / 2;
break;
}
pthread_mutex_unlock(&vid_mutex);
return dev->fd;
}
dev = dev->next;
}
MOTION_LOG(NTC, TYPE_VIDEO, NO_ERRNO, "%s: Using videodevice %s and input %d",
conf->video_device, conf->input);
dev = mymalloc(sizeof(struct video_dev));
memset(dev, 0, sizeof(struct video_dev));
dev->video_device = conf->video_device;
fd = open(dev->video_device, O_RDWR);
if (fd < 0) {
MOTION_LOG(ALR, TYPE_VIDEO, SHOW_ERRNO, "%s: Failed to open video device %s",
conf->video_device);
free(dev);
pthread_mutex_unlock(&vid_mutex);
return -1;
}
pthread_mutexattr_init(&dev->attr);
pthread_mutex_init(&dev->mutex, &dev->attr);
dev->usage_count = 1;
dev->fd = fd;
dev->input = input;
dev->norm = norm;
dev->height = height;
dev->width = width;
dev->freq = frequency;
dev->tuner_number = tuner_number;
/*
* We set brightness, contrast, saturation and hue = 0 so that they only get
* set if the config is not zero.
*/
dev->brightness = 0;
dev->contrast = 0;
dev->saturation = 0;
dev->hue = 0;
dev->owner = -1;
dev->v4l_fmt = VIDEO_PALETTE_YUV420P;
dev->fps = 0;
#ifdef MOTION_V4L2
/* First lets try V4L2 and if it's not supported V4L1. */
dev->v4l2 = 1;
if (!v4l2_start(cnt, dev, width, height, input, norm, frequency, tuner_number)) {
/*
* Restore width & height before test with v4l
* because could be changed in v4l2_start().
*/
dev->width = width;
dev->height = height;
#endif
#if defined(HAVE_LINUX_VIDEODEV_H) && (!defined(WITHOUT_V4L))
if (!v4l_start(dev, width, height, input, norm, frequency, tuner_number)) {
close(dev->fd);
pthread_mutexattr_destroy(&dev->attr);
pthread_mutex_destroy(&dev->mutex);
free(dev);
pthread_mutex_unlock(&vid_mutex);
return -1;
}
#endif
#ifdef MOTION_V4L2
dev->v4l2 = 0;
}
#endif
if (dev->v4l2 == 0) {
MOTION_LOG(NTC, TYPE_VIDEO, NO_ERRNO, "%s: Using V4L1");
} else {
MOTION_LOG(NTC, TYPE_VIDEO, NO_ERRNO, "%s: Using V4L2");
/* Update width & height because could be changed in v4l2_start(). */
width = dev->width;
height = dev->height;
cnt->imgs.width = width;
cnt->imgs.height = height;
}
cnt->imgs.type = dev->v4l_fmt;
switch (cnt->imgs.type) {
case VIDEO_PALETTE_GREY:
cnt->imgs.size = width * height;
cnt->imgs.motionsize = width * height;
break;
case VIDEO_PALETTE_YUYV:
case VIDEO_PALETTE_RGB24:
case VIDEO_PALETTE_YUV422:
cnt->imgs.type = VIDEO_PALETTE_YUV420P;
case VIDEO_PALETTE_YUV420P:
cnt->imgs.size = (width * height * 3) / 2;
cnt->imgs.motionsize = width * height;
break;
}
/* Insert into linked list. */
dev->next = viddevs;
viddevs = dev;
pthread_mutex_unlock(&vid_mutex);
return fd;
}
#endif /* !WITHOUT_V4L */
/**
* vid_start
*
* vid_start setup the capture device. This will be either a V4L device or a netcam.
* The function does the following:
* - If the camera is a netcam - netcam_start is called and function returns
* - Width and height are checked for valid value (multiple of 8)
* - Copy the config height and width to the imgs struct. Note that height and width are
* only copied to the from the conf struct to the imgs struct during program startup
* The width and height can no later be changed via http remote control as this would
* require major re-memory allocations of all image buffers.
*
* - if the camera is V4L/V4L2 vid_v4lx_start is called
*
* Parameters:
* cnt Pointer to the context for this thread
*
* Returns
* device number
* -1 if failed to open device.
* -3 image dimensions are not modulo 8
*/
int vid_start(struct context *cnt)
{
struct config *conf = &cnt->conf;
int dev = -1;
if (conf->netcam_url) {
dev = netcam_start(cnt);
if (dev < 0) {
netcam_cleanup(cnt->netcam, 1);
cnt->netcam = NULL;
}
}
#ifdef WITHOUT_V4L
else
MOTION_LOG(CRT, TYPE_VIDEO, NO_ERRNO, "%s: You must setup netcam_url");
#else
else
dev = vid_v4lx_start(cnt);
#endif /*WITHOUT_V4L */
return dev;
}
/**
* vid_next
*
* vid_next fetches a video frame from a either v4l device or netcam
*
* Parameters:
* cnt Pointer to the context for this thread
* map Pointer to the buffer in which the function puts the new image
*
* Global variable
* viddevs The viddevs struct is "global" within the context of video.c
* and used in functions vid_*.
* Returns
* 0 Success
* -1 Fatal V4L error
* -2 Fatal Netcam error
* Positive numbers...
* with bit 0 set Non fatal V4L error (copy grey image and discard this image)
* with bit 1 set Non fatal Netcam error
*/
int vid_next(struct context *cnt, unsigned char *map)
{
int ret = -2;
struct config *conf = &cnt->conf;
if (conf->netcam_url) {
if (cnt->video_dev == -1)
return NETCAM_GENERAL_ERROR;
return netcam_next(cnt, map);
}
#ifndef WITHOUT_V4L
/*
* We start a new block so we can make declarations without breaking
* gcc 2.95 or older.
*/
{
struct video_dev *dev;
int width, height;
/* NOTE: Since this is a capture, we need to use capture dimensions. */
width = cnt->rotate_data.cap_width;
height = cnt->rotate_data.cap_height;
pthread_mutex_lock(&vid_mutex);
dev = viddevs;
while (dev) {
if (dev->fd == cnt->video_dev)
break;
dev = dev->next;
}
pthread_mutex_unlock(&vid_mutex);
if (dev == NULL)
return V4L_FATAL_ERROR;
if (dev->owner != cnt->threadnr) {
pthread_mutex_lock(&dev->mutex);
dev->owner = cnt->threadnr;
dev->frames = conf->roundrobin_frames;
}
#ifdef MOTION_V4L2
if (dev->v4l2) {
v4l2_set_input(cnt, dev, map, width, height, conf);
ret = v4l2_next(cnt, dev, map, width, height);
} else {
#endif
#if defined(HAVE_LINUX_VIDEODEV_H) && (!defined(WITHOUT_V4L))
v4l_set_input(cnt, dev, map, width, height, conf);
ret = v4l_next(dev, map, width, height);
#endif
#ifdef MOTION_V4L2
}
#endif
if (--dev->frames <= 0) {
dev->owner = -1;
dev->frames = 0;
pthread_mutex_unlock(&dev->mutex);
}
/* Rotate the image as specified. */
if (cnt->rotate_data.degrees > 0)
rotate_map(cnt, map);
}
#endif /*WITHOUT_V4L */
return ret;
}