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#include <linuxcomp.h>
#include <linux/config.h>
#include <linux/types.h>
#include <linux/major.h>
#include <linux/errno.h>
#include <linux/signal.h>
#include "media/pwc-ioctl.h"
#include <linux/videodev.h>
#include <drivers/shark_pwc26.h>
/*
* shark lowlevel wrapper
*/
struct PWC_data
{
struct file
* file
;
struct pwc_imagesize RealSize
;
struct pwc_coord m_ViewSize
, m_RealSize
;
struct pwc_coord m_Offset
;
struct video_capability Capability
;
struct pwc_probe Probe
;
struct video_picture Picture
;
struct video_window Window
;
struct pwc_video_command VideoCmd
;
void *m_pPWCXBuffer
, *m_pInputBuffer
, *m_pImageBuffer
;
int m_Frames
, len
, m_UseRaw
, m_ImageSize
, m_ImageLen
;
int m_Type
, m_Bandlength
, m_Bayer
;
int m_InputLen
;
};
extern int usb_pwc_init
();
extern void* malloc(size_t size
);
extern int pwc_video_do_ioctl
(struct inode
*inode
, struct file
*file
, unsigned int cmd
, void *arg
);
extern int pwc_video_open
(struct inode
*inode
, struct file
*file
);
extern int pwc_video_close
(struct inode
*inode
, struct file
*file
);
extern ssize_t pwc_video_read
(struct file
*file
, char *buf
, size_t count
, loff_t
*ppos
);
extern int pwc_video_ioctl
(struct inode
*inode
, struct file
*file
, unsigned int ioctlnr
, unsigned long arg
);
void shark_PWC_init
()
{
usb_pwc_init
();
}
int shark_PWC_open
(struct PWC26_DEVICE
*pwc26
, int width
, int height
, int fps
, int quality
, int webcamnr
)
{
int err
;
struct PWC_data
*pwc_data
;
struct file
*file
;
struct inode
*inode
;
pwc_data
= malloc(sizeof(struct PWC_data
));
pwc26
->private_data
= (void*)pwc_data
;
if (!pwc_data
)
return -ENOMEM
;
memset(pwc_data
, 0, sizeof(struct PWC_data
));
file
= malloc(sizeof(struct file
));
if (!file
)
return -ENOMEM
;
file
->f_dentry
= malloc(sizeof(struct dentry
));
if (!file
->f_dentry
)
return -ENOMEM
;
file
->f_dentry
->d_inode
= malloc(sizeof(struct inode
));
if (!file
->f_dentry
->d_inode
)
return -ENOMEM
;
file
->f_dentry
->d_inode
->i_rdev
= webcamnr
;
inode
= file
->f_dentry
->d_inode
;
pwc_data
->file
= file
;
pwc_data
->m_ViewSize.
x = width
;
pwc_data
->m_ViewSize.
y = height
;
pwc_data
->m_Frames
= fps
;
pwc_data
->m_RealSize
= pwc_data
->m_ViewSize
;
pwc_data
->m_Offset.
x = 0;
pwc_data
->m_Offset.
y = 0;
pwc_data
->m_UseRaw
= TRUE
;
pwc_data
->m_Bayer
= FALSE
;
pwc_data
->m_pInputBuffer
= NULL
;
pwc_data
->m_InputLen
= 0;
pwc_data
->m_pImageBuffer
= NULL
;
pwc_data
->m_ImageLen
= NULL
;
pwc_data
->m_Type
= NULL
;
pwc_data
->m_pPWCXBuffer
= malloc(60000); // large enoug for all cams
if (!pwc_data
->m_pPWCXBuffer
)
return -ENOMEM
;
err
=pwc_video_open
(inode
, file
);
if (err
<0)
return err
;
pwc_video_do_ioctl
(inode
, file
, VIDIOCGCAP
, &pwc_data
->Capability
);
printk
(KERN_INFO
"Capability->type= %d\n", pwc_data
->Capability.
type);
printk
(KERN_INFO
"Capability->channels =%d\n",pwc_data
->Capability.
channels);
printk
(KERN_INFO
"Capability->audios=%d\n",pwc_data
->Capability.
audios);
printk
(KERN_INFO
"Capability->minwidth=%d\n",pwc_data
->Capability.
minwidth);
printk
(KERN_INFO
"Capability->minheight=%d\n",pwc_data
->Capability.
minheight);
printk
(KERN_INFO
"Capability->maxwidth=%d\n",pwc_data
->Capability.
maxwidth);
printk
(KERN_INFO
"Capability->maxheight=%d\n",pwc_data
->Capability.
maxheight);
memset(&pwc_data
->Probe
, 0, sizeof(pwc_data
->Probe
));
pwc_video_do_ioctl
(inode
, file
, VIDIOCPWCPROBE
, &pwc_data
->Probe
);
pwc_video_do_ioctl
(inode
, file
, VIDIOCGPICT
, &pwc_data
->Picture
);
if (pwc_data
->m_UseRaw
)
pwc_data
->Picture.
palette = VIDEO_PALETTE_RAW
;
else
pwc_data
->Picture.
palette = VIDEO_PALETTE_YUV420P
;
pwc_video_do_ioctl
(inode
, file
, VIDIOCSPICT
, &pwc_data
->Picture
);
pwc_video_do_ioctl
(inode
, file
, VIDIOCGWIN
, &pwc_data
->Window
);
/* unavailable in pwc 10.x */
if (pwc_data
->m_Bayer
)
{
// special raw Bayer mode
pwc_data
->m_ViewSize.
x = 640;
pwc_data
->m_ViewSize.
y = 480;
pwc_data
->m_Frames
= 5;
pwc_data
->m_RealSize
= pwc_data
->m_ViewSize
;
}
pwc_data
->Window.
width = pwc_data
->m_ViewSize.
x;
pwc_data
->Window.
height = pwc_data
->m_ViewSize.
y;
pwc_data
->Window.
flags = (pwc_data
->m_Frames
<< PWC_FPS_SHIFT
);
if (pwc_data
->m_Bayer
)
pwc_data
->Window.
flags |= PWC_FPS_SNAPSHOT
;
pwc_video_do_ioctl
(inode
, file
, VIDIOCSWIN
, &pwc_data
->Window
);
if (pwc_data
->m_UseRaw
)
{
pwc_video_do_ioctl
(inode
, file
, VIDIOCPWCGVIDCMD
, &pwc_data
->VideoCmd
);
pwc_data
->m_Type
= pwc_data
->VideoCmd.
type;
pwc_data
->m_InputLen
= pwc_data
->VideoCmd.
frame_size;
pwc_data
->m_Bandlength
= pwc_data
->VideoCmd.
bandlength;
if (pwc_data
->m_Bandlength
> 0)
{
switch(pwc_data
->m_Type
)
{
case 645:
case 646:
pwcx_init_decompress_Nala
(pwc_data
->m_Type
, pwc_data
->VideoCmd.
release, &pwc_data
->VideoCmd.
command_buf, pwc_data
->m_pPWCXBuffer
);
break;
case 675:
case 680:
case 690:
pwcx_init_decompress_Timon
(pwc_data
->m_Type
, pwc_data
->VideoCmd.
release, &pwc_data
->VideoCmd.
command_buf, pwc_data
->m_pPWCXBuffer
);
break;
case 720:
case 730:
case 740:
case 750:
pwcx_init_decompress_Kiara
(pwc_data
->m_Type
, pwc_data
->VideoCmd.
release, &pwc_data
->VideoCmd.
command_buf, pwc_data
->m_pPWCXBuffer
);
break;
default:
// qDebug("Unknown type of camera (%d)!", VideoCmd.type);
break;
} // ..switch
} // ..m_Bandlength > 0
if (pwc_video_do_ioctl
(inode
, file
, VIDIOCPWCGREALSIZE
, &pwc_data
->RealSize
) == 0)
{
pwc_data
->m_Offset.
x = (pwc_data
->m_ViewSize.
x - pwc_data
->RealSize.
width) / 2;
pwc_data
->m_Offset.
y = (pwc_data
->m_ViewSize.
y - pwc_data
->RealSize.
height) / 2;
}
}
pwc_data
->m_ImageLen
= pwc_data
->m_ViewSize.
x * pwc_data
->m_ViewSize.
y * 3;
pwc_data
->m_pImageBuffer
= malloc (pwc_data
->m_ImageLen
);
if (pwc_data
->m_UseRaw
)
{
pwc_data
->m_pInputBuffer
= malloc(pwc_data
->m_InputLen
);
}
else
{
if (pwc_data
->m_pImageBuffer
!= 0)
{
pwc_data
->m_pInputBuffer
= pwc_data
->m_pImageBuffer
;
pwc_data
->m_InputLen
= pwc_data
->m_ImageLen
;
}
}
pwc26
->width
=pwc_data
->m_ViewSize.
x ;
pwc26
->height
=pwc_data
->m_ViewSize.
y ;
pwc26
->imgptr
=(BYTE
*)pwc_data
->m_pImageBuffer
;
return 0;
}
int shark_PWC_read
(struct PWC26_DEVICE
*pwc26
)
{
int len
;
struct PWC_data
*pwc_data
= (struct PWC_data
*)pwc26
->private_data
;
if (pwc_data
->m_pInputBuffer
== 0 || pwc_data
->m_pImageBuffer
== 0)
return -666;
len
= pwc_video_read
(pwc_data
->file
, pwc_data
->m_pInputBuffer
, pwc_data
->m_InputLen
, 0);
if (len
> 0 && pwc_data
->m_Bandlength
> 0)
{
switch(pwc_data
->m_Type
)
{
case 645:
case 646:
pwcx_decompress_Nala
(&pwc_data
->m_RealSize
, &pwc_data
->m_ViewSize
, &pwc_data
->m_Offset
, \
pwc_data
->m_pInputBuffer
, pwc_data
->m_pImageBuffer
, \
PWCX_FLAG_PLANAR
, \
pwc_data
->m_pPWCXBuffer
, pwc_data
->m_Bandlength
);
break;
case 675:
case 680:
case 690:
pwcx_decompress_Timon
(&pwc_data
->m_RealSize
, &pwc_data
->m_ViewSize
, &pwc_data
->m_Offset
, \
pwc_data
->m_pInputBuffer
, pwc_data
->m_pImageBuffer
, \
PWCX_FLAG_PLANAR
, \
pwc_data
->m_pPWCXBuffer
, pwc_data
->m_Bandlength
);
break;
case 720:
case 730:
case 740:
case 750:
pwcx_decompress_Kiara
(&pwc_data
->m_RealSize
, &pwc_data
->m_ViewSize
, &pwc_data
->m_Offset
, \
pwc_data
->m_pInputBuffer
, pwc_data
->m_pImageBuffer
, \
PWCX_FLAG_PLANAR
| (pwc_data
->m_Bayer
? PWCX_FLAG_BAYER
: 0), \
pwc_data
->m_pPWCXBuffer
, pwc_data
->m_Bandlength
);
break;
}
}
return len
;
}
void shark_PWC_close
(struct PWC26_DEVICE
*pwc26
)
{
struct file
*file
;
struct inode
*inode
;
struct PWC_data
*pwc_data
= (struct PWC_data
*)pwc26
->private_data
;
if (!pwc_data
)
return;
free(pwc_data
->m_pPWCXBuffer
);
file
= pwc_data
->file
;
inode
= file
->f_dentry
->d_inode
;
// pwc_video_close(inode, file);
free(inode
);
free(file
->f_dentry
);
free(file
);
free(pwc_data
);
}