static long CAM_CAL_Ioctl(
struct file *file,
unsigned int a_u4Command,
unsigned long a_u4Param
)
#endif
{
int i4RetValue = 0;
u8 * pBuff = NULL;
u8 * pWorkingBuff = NULL;
stCAM_CAL_INFO_STRUCT *ptempbuf;
#ifdef CAM_CALGETDLT_DEBUG
struct timeval ktv1, ktv2;
unsigned long TimeIntervalUS;
#endif
if(_IOC_NONE == _IOC_DIR(a_u4Command))
{
}
else
{
pBuff = (u8 *)kmalloc(sizeof(stCAM_CAL_INFO_STRUCT),GFP_KERNEL);
if(NULL == pBuff)
{
CAM_CALDB("[S24CAM_CAL] ioctl allocate mem failed\n");
return -ENOMEM;
}
if(_IOC_WRITE & _IOC_DIR(a_u4Command))
{
if(copy_from_user((u8 *) pBuff , (u8 *) a_u4Param, sizeof(stCAM_CAL_INFO_STRUCT)))
{ //get input structure address
kfree(pBuff);
CAM_CALDB("[S24CAM_CAL] ioctl copy from user failed\n");
return -EFAULT;
}
}
}
ptempbuf = (stCAM_CAL_INFO_STRUCT *)pBuff;
pWorkingBuff = (u8*)kmalloc(ptempbuf->u4Length,GFP_KERNEL);
if(NULL == pWorkingBuff)
{
kfree(pBuff);
CAM_CALDB("[S24CAM_CAL] ioctl allocate mem failed\n");
return -ENOMEM;
}
CAM_CALDB("[S24CAM_CAL] init Working buffer address 0x%8x command is 0x%8x\n", (u32)pWorkingBuff, (u32)a_u4Command);
if(copy_from_user((u8*)pWorkingBuff , (u8*)ptempbuf->pu1Params, ptempbuf->u4Length))
{
kfree(pBuff);
kfree(pWorkingBuff);
CAM_CALDB("[S24CAM_CAL] ioctl copy from user failed\n");
return -EFAULT;
}
switch(a_u4Command)
{
case CAM_CALIOC_S_WRITE:
CAM_CALDB("[S24CAM_CAL] Write CMD \n");
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv1);
#endif
i4RetValue = iWriteData((u16)ptempbuf->u4Offset, ptempbuf->u4Length, pWorkingBuff);
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv2);
if(ktv2.tv_sec > ktv1.tv_sec)
{
TimeIntervalUS = ktv1.tv_usec + 1000000 - ktv2.tv_usec;
}
else
{
TimeIntervalUS = ktv2.tv_usec - ktv1.tv_usec;
}
printk("Write data %d bytes take %lu us\n",ptempbuf->u4Length, TimeIntervalUS);
#endif
break;
case CAM_CALIOC_G_READ:
CAM_CALDB("[S24CAM_CAL] Read CMD \n");
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv1);
#endif
CAM_CALDB("[CAM_CAL] offset %d \n", ptempbuf->u4Offset);
CAM_CALDB("[CAM_CAL] length %d \n", ptempbuf->u4Length);
CAM_CALDB("[CAM_CAL] Before read Working buffer address 0x%8x \n", (u32)pWorkingBuff);
Enb_OTP_Read(1); //Enable OTP Read
i4RetValue = iReadData((u16)(ptempbuf->u4Offset+OTP_START_ADDR), ptempbuf->u4Length, pWorkingBuff);
Enb_OTP_Read(0); //Disable OTP Read
Clear_OTP_Buff(); //Clean OTP buff
CAM_CALDB("[S24CAM_CAL] After read Working buffer data 0x%4x \n", *pWorkingBuff);
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv2);
if(ktv2.tv_sec > ktv1.tv_sec)
{
TimeIntervalUS = ktv1.tv_usec + 1000000 - ktv2.tv_usec;
}
else
{
TimeIntervalUS = ktv2.tv_usec - ktv1.tv_usec;
}
printk("Read data %d bytes take %lu us\n",ptempbuf->u4Length, TimeIntervalUS);
#endif
break;
default :
CAM_CALDB("[S24CAM_CAL] No CMD \n");
i4RetValue = -EPERM;
break;
}
if(_IOC_READ & _IOC_DIR(a_u4Command))
{
//copy data to user space buffer, keep other input paremeter unchange.
CAM_CALDB("[S24CAM_CAL] to user length %d \n", ptempbuf->u4Length);
CAM_CALDB("[S24CAM_CAL] to user Working buffer address 0x%8x \n", (u32)pWorkingBuff);
if(copy_to_user((u8 __user *) ptempbuf->pu1Params , (u8 *)pWorkingBuff , ptempbuf->u4Length))
{
kfree(pBuff);
kfree(pWorkingBuff);
CAM_CALDB("[S24CAM_CAL] ioctl copy to user failed\n");
return -EFAULT;
}
}
kfree(pBuff);
kfree(pWorkingBuff);
return i4RetValue;
}
static long CAM_CAL_Ioctl(
struct file *file,
unsigned int a_u4Command,
unsigned long a_u4Param
)
#endif
{
int i4RetValue = 0;
u8 * pBuff = NULL;
u8 * pWorkingBuff = NULL;
stCAM_CAL_INFO_STRUCT *ptempbuf;
u16 otp_data;
u8 temp_data=0;
#ifdef CAM_CALGETDLT_DEBUG
struct timeval ktv1, ktv2;
unsigned long TimeIntervalUS;
#endif
if(_IOC_NONE == _IOC_DIR(a_u4Command))
{
}
else
{
pBuff = (u8 *)kmalloc(sizeof(stCAM_CAL_INFO_STRUCT),GFP_KERNEL);
if(NULL == pBuff)
{
CAM_CALDB("[S24CAM_CAL] ioctl allocate mem failed\n");
return -ENOMEM;
}
if(_IOC_WRITE & _IOC_DIR(a_u4Command))
{
if(copy_from_user((u8 *) pBuff , (u8 *) a_u4Param, sizeof(stCAM_CAL_INFO_STRUCT)))
{ //get input structure address
kfree(pBuff);
CAM_CALDB("[S24CAM_CAL] ioctl copy from user failed\n");
return -EFAULT;
}
}
CAM_CALDB("[S24CAM_CAL] LONG TEST SIZE=%d.\n",sizeof( stCAM_CAL_INFO_STRUCT));
}
ptempbuf = (stCAM_CAL_INFO_STRUCT *)pBuff;
CAM_CALDB("[S24CAM_CAL] pBuff u4Length=%d.\n",ptempbuf->u4Length);
pWorkingBuff = (u8*)kmalloc(ptempbuf->u4Length,GFP_KERNEL);
//CAM_CALDB("[S24CAM_CAL]WorkingBuff Start Address is =%x, Buff length=%d, WorkingBuff End Address is=%x\n", pWorkingBuff, ptempbuf->u4Length, pWorkingBuff+ptempbuf->u4Length);
if(NULL == pWorkingBuff)
{
kfree(pBuff);
CAM_CALDB("[S24CAM_CAL] ioctl allocate mem failed\n");
return -ENOMEM;
}
CAM_CALDB("[S24CAM_CAL] init Working buffer address 0x%8x command is 0x%8x\n", (u32)pWorkingBuff, (u32)a_u4Command);
if(copy_from_user((u8*)pWorkingBuff , (u8*)ptempbuf->pu1Params, 2))
{
kfree(pBuff);
kfree(pWorkingBuff);
CAM_CALDB("[S24CAM_CAL] ioctl copy from user failed\n");
return -EFAULT;
}
switch(a_u4Command)
{
case CAM_CALIOC_S_WRITE:
CAM_CALDB("[S24CAM_CAL] Write CMD \n");
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv1);
#endif
CAM_CALDB("[S24CAM_CAL] ptempbuf->u4Offset=%0x.\n",ptempbuf->u4Offset);
CAM_CALDB("[S24CAM_CAL] ptempbuf->u4Length=%0x.\n",ptempbuf->u4Length);
//i4RetValue = iWriteData((u16)ptempbuf->u4Offset, ptempbuf->u4Length, pWorkingBuff);
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv2);
if(ktv2.tv_sec > ktv1.tv_sec)
{
TimeIntervalUS = ktv1.tv_usec + 1000000 - ktv2.tv_usec;
}
else
{
TimeIntervalUS = ktv2.tv_usec - ktv1.tv_usec;
}
printk("Write data %d bytes take %lu us\n",ptempbuf->u4Length, TimeIntervalUS);
#endif
break;
case CAM_CALIOC_G_READ:
CAM_CALDB("[S24CAM_CAL] Read CMD \n");
#ifdef CAM_CALGETDLT_DEBUG
do_gettimeofday(&ktv1);
#endif
// CAM_CALDB("[CAM_CAL] offset %x \n", ptempbuf->u4Offset);
// CAM_CALDB("[CAM_CAL] length %d \n", ptempbuf->u4Length);
// CAM_CALDB("[CAM_CAL] Before read Working buffer address 0x%8x,value 0x%8x \n", (u32)pWorkingBuff,(u8 *)pWorkingBuff);
if(ptempbuf->u4Offset==0x3806)
{
if (isHaveOtpData(ptempbuf->u4Offset))
{
CAM_CALDB("[S24CAM_CAL] have read otp data! \n");
otp_data = restoreOtpData(ptempbuf->u4Offset);
pWorkingBuff[0] = otp_data >> 8;
pWorkingBuff[1] = otp_data & 0xFF;
}
else
{
Enb_OTP_Read(1); //Enable OTP Read
i4RetValue = iReadData((u16)(ptempbuf->u4Offset), ptempbuf->u4Length, pWorkingBuff);
Enb_OTP_Read(0); //Disable OTP Read
saveOtpData(ptempbuf->u4Offset, (u16)(pWorkingBuff[0] << 8 | pWorkingBuff[1]));
}
// Clear_OTP_Buff(); //Clean OTP buff
CAM_CALDB("[S24CAM_CAL] After read Working buffer data 0x%x,%x \n", pWorkingBuff[0],pWorkingBuff[1]);
}
