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Commit 294781db authored by Sylwester Nawrocki's avatar Sylwester Nawrocki Committed by Mauro Carvalho Chehab
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[media] exynos4-is: Add FIMC-IS parameter region definitions 

This patch adds the ISP processing parameters interface files.
Signed-off-by: default avatarYounghwan Joo <yhwan.joo@samsung.com>
Signed-off-by: default avatarSylwester Nawrocki <s.nawrocki@samsung.com>
Signed-off-by: default avatarKyungmin Park <kyungmin.park@samsung.com>
Signed-off-by: default avatarMauro Carvalho Chehab <mchehab@redhat.com>
parent da114376
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drivers/media/platform/exynos4-is/fimc-is-param.c 0 → 100644
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/*
* Samsung EXYNOS4x12 FIMC-IS (Imaging Subsystem) driver
*
* Copyright (C) 2013 Samsung Electronics Co., Ltd.
*
* Authors: Younghwan Joo <yhwan.joo@samsung.com>
* Sylwester Nawrocki <s.nawrocki@samsung.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#define pr_fmt(fmt) "%s:%d " fmt, __func__, __LINE__
#include <linux/bug.h>
#include <linux/device.h>
#include <linux/errno.h>
#include <linux/kernel.h>
#include <linux/module.h>
#include <linux/types.h>
#include <linux/platform_device.h>
#include <linux/slab.h>
#include <linux/videodev2.h>
#include <media/v4l2-device.h>
#include <media/v4l2-ioctl.h>
#include "fimc-is.h"
#include "fimc-is-command.h"
#include "fimc-is-errno.h"
#include "fimc-is-param.h"
#include "fimc-is-regs.h"
#include "fimc-is-sensor.h"
static void __hw_param_copy(void *dst, void *src)
{
memcpy(dst, src, FIMC_IS_PARAM_MAX_SIZE);
}
void __fimc_is_hw_update_param_global_shotmode(struct fimc_is *is)
{
struct param_global_shotmode *dst, *src;
dst = &is->is_p_region->parameter.global.shotmode;
src = &is->cfg_param[is->scenario_id].global.shotmode;
__hw_param_copy(dst, src);
}
void __fimc_is_hw_update_param_sensor_framerate(struct fimc_is *is)
{
struct param_sensor_framerate *dst, *src;
dst = &is->is_p_region->parameter.sensor.frame_rate;
src = &is->cfg_param[is->scenario_id].sensor.frame_rate;
__hw_param_copy(dst, src);
}
int __fimc_is_hw_update_param(struct fimc_is *is, u32 offset)
{
struct is_param_region *par = &is->is_p_region->parameter;
struct is_config_param *cfg = &is->cfg_param[is->scenario_id];
switch (offset) {
case PARAM_ISP_CONTROL:
__hw_param_copy(&par->isp.control, &cfg->isp.control);
break;
case PARAM_ISP_OTF_INPUT:
__hw_param_copy(&par->isp.otf_input, &cfg->isp.otf_input);
break;
case PARAM_ISP_DMA1_INPUT:
__hw_param_copy(&par->isp.dma1_input, &cfg->isp.dma1_input);
break;
case PARAM_ISP_DMA2_INPUT:
__hw_param_copy(&par->isp.dma2_input, &cfg->isp.dma2_input);
break;
case PARAM_ISP_AA:
__hw_param_copy(&par->isp.aa, &cfg->isp.aa);
break;
case PARAM_ISP_FLASH:
__hw_param_copy(&par->isp.flash, &cfg->isp.flash);
break;
case PARAM_ISP_AWB:
__hw_param_copy(&par->isp.awb, &cfg->isp.awb);
break;
case PARAM_ISP_IMAGE_EFFECT:
__hw_param_copy(&par->isp.effect, &cfg->isp.effect);
break;
case PARAM_ISP_ISO:
__hw_param_copy(&par->isp.iso, &cfg->isp.iso);
break;
case PARAM_ISP_ADJUST:
__hw_param_copy(&par->isp.adjust, &cfg->isp.adjust);
break;
case PARAM_ISP_METERING:
__hw_param_copy(&par->isp.metering, &cfg->isp.metering);
break;
case PARAM_ISP_AFC:
__hw_param_copy(&par->isp.afc, &cfg->isp.afc);
break;
case PARAM_ISP_OTF_OUTPUT:
__hw_param_copy(&par->isp.otf_output, &cfg->isp.otf_output);
break;
case PARAM_ISP_DMA1_OUTPUT:
__hw_param_copy(&par->isp.dma1_output, &cfg->isp.dma1_output);
break;
case PARAM_ISP_DMA2_OUTPUT:
__hw_param_copy(&par->isp.dma2_output, &cfg->isp.dma2_output);
break;
case PARAM_DRC_CONTROL:
__hw_param_copy(&par->drc.control, &cfg->drc.control);
break;
case PARAM_DRC_OTF_INPUT:
__hw_param_copy(&par->drc.otf_input, &cfg->drc.otf_input);
break;
case PARAM_DRC_DMA_INPUT:
__hw_param_copy(&par->drc.dma_input, &cfg->drc.dma_input);
break;
case PARAM_DRC_OTF_OUTPUT:
__hw_param_copy(&par->drc.otf_output, &cfg->drc.otf_output);
break;
case PARAM_FD_CONTROL:
__hw_param_copy(&par->fd.control, &cfg->fd.control);
break;
case PARAM_FD_OTF_INPUT:
__hw_param_copy(&par->fd.otf_input, &cfg->fd.otf_input);
break;
case PARAM_FD_DMA_INPUT:
__hw_param_copy(&par->fd.dma_input, &cfg->fd.dma_input);
break;
case PARAM_FD_CONFIG:
__hw_param_copy(&par->fd.config, &cfg->fd.config);
break;
default:
return -EINVAL;
}
return 0;
}
int __is_hw_update_params(struct fimc_is *is)
{
unsigned long *p_index1, *p_index2;
int i, id, ret = 0;
id = is->scenario_id;
p_index1 = &is->cfg_param[id].p_region_index1;
p_index2 = &is->cfg_param[id].p_region_index2;
if (test_bit(PARAM_GLOBAL_SHOTMODE, p_index1))
__fimc_is_hw_update_param_global_shotmode(is);
if (test_bit(PARAM_SENSOR_FRAME_RATE, p_index1))
__fimc_is_hw_update_param_sensor_framerate(is);
for (i = PARAM_ISP_CONTROL; i < PARAM_DRC_CONTROL; i++) {
if (test_bit(i, p_index1))
ret = __fimc_is_hw_update_param(is, i);
}
for (i = PARAM_DRC_CONTROL; i < PARAM_SCALERC_CONTROL; i++) {
if (test_bit(i, p_index1))
ret = __fimc_is_hw_update_param(is, i);
}
for (i = PARAM_FD_CONTROL; i <= PARAM_FD_CONFIG; i++) {
if (test_bit((i - 32), p_index2))
ret = __fimc_is_hw_update_param(is, i);
}
return ret;
}
void __is_get_frame_size(struct fimc_is *is, struct v4l2_mbus_framefmt *mf)
{
struct isp_param *isp;
isp = &is->cfg_param[is->scenario_id].isp;
mf->width = isp->otf_input.width;
mf->height = isp->otf_input.height;
}
void __is_set_frame_size(struct fimc_is *is, struct v4l2_mbus_framefmt *mf)
{
struct isp_param *isp;
struct drc_param *drc;
struct fd_param *fd;
unsigned int mode;
mode = is->scenario_id;
isp = &is->cfg_param[mode].isp;
drc = &is->cfg_param[mode].drc;
fd = &is->cfg_param[mode].fd;
/* Update isp size info (OTF only) */
isp->otf_input.width = mf->width;
isp->otf_input.height = mf->height;
isp->otf_output.width = mf->width;
isp->otf_output.height = mf->height;
/* Update drc size info (OTF only) */
drc->otf_input.width = mf->width;
drc->otf_input.height = mf->height;
drc->otf_output.width = mf->width;
drc->otf_output.height = mf->height;
/* Update fd size info (OTF only) */
fd->otf_input.width = mf->width;
fd->otf_input.height = mf->height;
if (test_bit(PARAM_ISP_OTF_INPUT,
&is->cfg_param[mode].p_region_index1))
return;
/* Update field */
fimc_is_set_param_bit(is, PARAM_ISP_OTF_INPUT);
fimc_is_inc_param_num(is);
fimc_is_set_param_bit(is, PARAM_ISP_OTF_OUTPUT);
fimc_is_inc_param_num(is);
fimc_is_set_param_bit(is, PARAM_DRC_OTF_INPUT);
fimc_is_inc_param_num(is);
fimc_is_set_param_bit(is, PARAM_DRC_OTF_OUTPUT);
fimc_is_inc_param_num(is);
fimc_is_set_param_bit(is, PARAM_FD_OTF_INPUT);
fimc_is_inc_param_num(is);
}
int fimc_is_hw_get_sensor_max_framerate(struct fimc_is *is)
{
switch (is->sensor->drvdata->id) {
case FIMC_IS_SENSOR_ID_S5K6A3:
return 30;
default:
return 15;
}
}
void __is_set_sensor(struct fimc_is *is, int fps)
{
struct sensor_param *sensor;
struct isp_param *isp;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index1;
sensor = &is->cfg_param[mode].sensor;
isp = &is->cfg_param[mode].isp;
if (fps == 0) {
sensor->frame_rate.frame_rate =
fimc_is_hw_get_sensor_max_framerate(is);
isp->otf_input.frametime_min = 0;
isp->otf_input.frametime_max = 66666;
} else {
sensor->frame_rate.frame_rate = fps;
isp->otf_input.frametime_min = 0;
isp->otf_input.frametime_max = (u32)1000000 / fps;
}
if (!test_bit(PARAM_SENSOR_FRAME_RATE, p_index)) {
fimc_is_set_param_bit(is, PARAM_SENSOR_FRAME_RATE);
fimc_is_inc_param_num(is);
}
if (!test_bit(PARAM_ISP_OTF_INPUT, p_index)) {
fimc_is_set_param_bit(is, PARAM_ISP_OTF_INPUT);
fimc_is_inc_param_num(is);
}
}
void __is_set_init_isp_aa(struct fimc_is *is)
{
struct isp_param *isp;
isp = &is->cfg_param[is->scenario_id].isp;
isp->aa.cmd = ISP_AA_COMMAND_START;
isp->aa.target = ISP_AA_TARGET_AF | ISP_AA_TARGET_AE |
ISP_AA_TARGET_AWB;
isp->aa.mode = 0;
isp->aa.scene = 0;
isp->aa.sleep = 0;
isp->aa.face = 0;
isp->aa.touch_x = 0;
isp->aa.touch_y = 0;
isp->aa.manual_af_setting = 0;
isp->aa.err = ISP_AF_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_AA);
fimc_is_inc_param_num(is);
}
void __is_set_isp_flash(struct fimc_is *is, u32 cmd, u32 redeye)
{
unsigned int mode = is->scenario_id;
struct is_config_param *cfg = &is->cfg_param[mode];
struct isp_param *isp = &cfg->isp;
isp->flash.cmd = cmd;
isp->flash.redeye = redeye;
isp->flash.err = ISP_FLASH_ERROR_NONE;
if (!test_bit(PARAM_ISP_FLASH, &cfg->p_region_index1)) {
fimc_is_set_param_bit(is, PARAM_ISP_FLASH);
fimc_is_inc_param_num(is);
}
}
void __is_set_isp_awb(struct fimc_is *is, u32 cmd, u32 val)
{
unsigned int mode = is->scenario_id;
struct isp_param *isp;
unsigned long *p_index;
p_index = &is->cfg_param[mode].p_region_index1;
isp = &is->cfg_param[mode].isp;
isp->awb.cmd = cmd;
isp->awb.illumination = val;
isp->awb.err = ISP_AWB_ERROR_NONE;
if (!test_bit(PARAM_ISP_AWB, p_index)) {
fimc_is_set_param_bit(is, PARAM_ISP_AWB);
fimc_is_inc_param_num(is);
}
}
void __is_set_isp_effect(struct fimc_is *is, u32 cmd)
{
unsigned int mode = is->scenario_id;
struct isp_param *isp;
unsigned long *p_index;
p_index = &is->cfg_param[mode].p_region_index1;
isp = &is->cfg_param[mode].isp;
isp->effect.cmd = cmd;
isp->effect.err = ISP_IMAGE_EFFECT_ERROR_NONE;
if (!test_bit(PARAM_ISP_IMAGE_EFFECT, p_index)) {
fimc_is_set_param_bit(is, PARAM_ISP_IMAGE_EFFECT);
fimc_is_inc_param_num(is);
}
}
void __is_set_isp_iso(struct fimc_is *is, u32 cmd, u32 val)
{
unsigned int mode = is->scenario_id;
struct isp_param *isp;
unsigned long *p_index;
p_index = &is->cfg_param[mode].p_region_index1;
isp = &is->cfg_param[mode].isp;
isp->iso.cmd = cmd;
isp->iso.value = val;
isp->iso.err = ISP_ISO_ERROR_NONE;
if (!test_bit(PARAM_ISP_ISO, p_index)) {
fimc_is_set_param_bit(is, PARAM_ISP_ISO);
fimc_is_inc_param_num(is);
}
}
void __is_set_isp_adjust(struct fimc_is *is, u32 cmd, u32 val)
{
unsigned int mode = is->scenario_id;
unsigned long *p_index;
struct isp_param *isp;
p_index = &is->cfg_param[mode].p_region_index1;
isp = &is->cfg_param[mode].isp;
switch (cmd) {
case ISP_ADJUST_COMMAND_MANUAL_CONTRAST:
isp->adjust.contrast = val;
break;
case ISP_ADJUST_COMMAND_MANUAL_SATURATION:
isp->adjust.saturation = val;
break;
case ISP_ADJUST_COMMAND_MANUAL_SHARPNESS:
isp->adjust.sharpness = val;
break;
case ISP_ADJUST_COMMAND_MANUAL_EXPOSURE:
isp->adjust.exposure = val;
break;
case ISP_ADJUST_COMMAND_MANUAL_BRIGHTNESS:
isp->adjust.brightness = val;
break;
case ISP_ADJUST_COMMAND_MANUAL_HUE:
isp->adjust.hue = val;
break;
case ISP_ADJUST_COMMAND_AUTO:
isp->adjust.contrast = 0;
isp->adjust.saturation = 0;
isp->adjust.sharpness = 0;
isp->adjust.exposure = 0;
isp->adjust.brightness = 0;
isp->adjust.hue = 0;
break;
}
if (!test_bit(PARAM_ISP_ADJUST, p_index)) {
isp->adjust.cmd = cmd;
isp->adjust.err = ISP_ADJUST_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_ADJUST);
fimc_is_inc_param_num(is);
} else {
isp->adjust.cmd |= cmd;
}
}
void __is_set_isp_metering(struct fimc_is *is, u32 id, u32 val)
{
struct isp_param *isp;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index1;
isp = &is->cfg_param[mode].isp;
switch (id) {
case IS_METERING_CONFIG_CMD:
isp->metering.cmd = val;
break;
case IS_METERING_CONFIG_WIN_POS_X:
isp->metering.win_pos_x = val;
break;
case IS_METERING_CONFIG_WIN_POS_Y:
isp->metering.win_pos_y = val;
break;
case IS_METERING_CONFIG_WIN_WIDTH:
isp->metering.win_width = val;
break;
case IS_METERING_CONFIG_WIN_HEIGHT:
isp->metering.win_height = val;
break;
default:
return;
}
if (!test_bit(PARAM_ISP_METERING, p_index)) {
isp->metering.err = ISP_METERING_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_METERING);
fimc_is_inc_param_num(is);
}
}
void __is_set_isp_afc(struct fimc_is *is, u32 cmd, u32 val)
{
struct isp_param *isp;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index1;
isp = &is->cfg_param[mode].isp;
isp->afc.cmd = cmd;
isp->afc.manual = val;
isp->afc.err = ISP_AFC_ERROR_NONE;
if (!test_bit(PARAM_ISP_AFC, p_index)) {
fimc_is_set_param_bit(is, PARAM_ISP_AFC);
fimc_is_inc_param_num(is);
}
}
void __is_set_drc_control(struct fimc_is *is, u32 val)
{
struct drc_param *drc;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index1;
drc = &is->cfg_param[mode].drc;
drc->control.bypass = val;
if (!test_bit(PARAM_DRC_CONTROL, p_index)) {
fimc_is_set_param_bit(is, PARAM_DRC_CONTROL);
fimc_is_inc_param_num(is);
}
}
void __is_set_fd_control(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->control.cmd = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fimc_is_set_param_bit(is, PARAM_FD_CONTROL);
fimc_is_inc_param_num(is);
}
}
void __is_set_fd_config_maxface(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.max_number = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_MAXIMUM_NUMBER;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_MAXIMUM_NUMBER;
}
}
void __is_set_fd_config_rollangle(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.roll_angle = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_ROLL_ANGLE;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_ROLL_ANGLE;
}
}
void __is_set_fd_config_yawangle(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.yaw_angle = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_YAW_ANGLE;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_YAW_ANGLE;
}
}
void __is_set_fd_config_smilemode(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.smile_mode = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_SMILE_MODE;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_SMILE_MODE;
}
}
void __is_set_fd_config_blinkmode(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.blink_mode = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_BLINK_MODE;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_BLINK_MODE;
}
}
void __is_set_fd_config_eyedetect(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.eye_detect = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_EYES_DETECT;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_EYES_DETECT;
}
}
void __is_set_fd_config_mouthdetect(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.mouth_detect = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_MOUTH_DETECT;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_MOUTH_DETECT;
}
}
void __is_set_fd_config_orientation(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.orientation = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_ORIENTATION;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_ORIENTATION;
}
}
void __is_set_fd_config_orientation_val(struct fimc_is *is, u32 val)
{
struct fd_param *fd;
unsigned long *p_index, mode;
mode = is->scenario_id;
p_index = &is->cfg_param[mode].p_region_index2;
fd = &is->cfg_param[mode].fd;
fd->config.orientation_value = val;
if (!test_bit((PARAM_FD_CONFIG - 32), p_index)) {
fd->config.cmd = FD_CONFIG_COMMAND_ORIENTATION_VALUE;
fd->config.err = ERROR_FD_NONE;
fimc_is_set_param_bit(is, PARAM_FD_CONFIG);
fimc_is_inc_param_num(is);
} else {
fd->config.cmd |= FD_CONFIG_COMMAND_ORIENTATION_VALUE;
}
}
void fimc_is_set_initial_params(struct fimc_is *is)
{
struct global_param *global;
struct sensor_param *sensor;
struct isp_param *isp;
struct drc_param *drc;
struct fd_param *fd;
unsigned long *p_index1, *p_index2;
unsigned int mode;
mode = is->scenario_id;
global = &is->cfg_param[mode].global;
sensor = &is->cfg_param[mode].sensor;
isp = &is->cfg_param[mode].isp;
drc = &is->cfg_param[mode].drc;
fd = &is->cfg_param[mode].fd;
p_index1 = &is->cfg_param[mode].p_region_index1;
p_index2 = &is->cfg_param[mode].p_region_index2;
/* Global */
global->shotmode.cmd = 1;
fimc_is_set_param_bit(is, PARAM_GLOBAL_SHOTMODE);
fimc_is_inc_param_num(is);
/* ISP */
isp->control.cmd = CONTROL_COMMAND_START;
isp->control.bypass = CONTROL_BYPASS_DISABLE;
isp->control.err = CONTROL_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_CONTROL);
fimc_is_inc_param_num(is);
isp->otf_input.cmd = OTF_INPUT_COMMAND_ENABLE;
if (!test_bit(PARAM_ISP_OTF_INPUT, p_index1)) {
isp->otf_input.width = DEFAULT_PREVIEW_STILL_WIDTH;
isp->otf_input.height = DEFAULT_PREVIEW_STILL_HEIGHT;
fimc_is_set_param_bit(is, PARAM_ISP_OTF_INPUT);
fimc_is_inc_param_num(is);
}
if (is->sensor->test_pattern)
isp->otf_input.format = OTF_INPUT_FORMAT_STRGEN_COLORBAR_BAYER;
else
isp->otf_input.format = OTF_INPUT_FORMAT_BAYER;
isp->otf_input.bitwidth = 10;
isp->otf_input.order = OTF_INPUT_ORDER_BAYER_GR_BG;
isp->otf_input.crop_offset_x = 0;
isp->otf_input.crop_offset_y = 0;
isp->otf_input.err = OTF_INPUT_ERROR_NONE;
isp->dma1_input.cmd = DMA_INPUT_COMMAND_DISABLE;
isp->dma1_input.width = 0;
isp->dma1_input.height = 0;
isp->dma1_input.format = 0;
isp->dma1_input.bitwidth = 0;
isp->dma1_input.plane = 0;
isp->dma1_input.order = 0;
isp->dma1_input.buffer_number = 0;
isp->dma1_input.width = 0;
isp->dma1_input.err = DMA_INPUT_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_DMA1_INPUT);
fimc_is_inc_param_num(is);
isp->dma2_input.cmd = DMA_INPUT_COMMAND_DISABLE;
isp->dma2_input.width = 0;
isp->dma2_input.height = 0;
isp->dma2_input.format = 0;
isp->dma2_input.bitwidth = 0;
isp->dma2_input.plane = 0;
isp->dma2_input.order = 0;
isp->dma2_input.buffer_number = 0;
isp->dma2_input.width = 0;
isp->dma2_input.err = DMA_INPUT_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_DMA2_INPUT);
fimc_is_inc_param_num(is);
isp->aa.cmd = ISP_AA_COMMAND_START;
isp->aa.target = ISP_AA_TARGET_AE | ISP_AA_TARGET_AWB;
fimc_is_set_param_bit(is, PARAM_ISP_AA);
fimc_is_inc_param_num(is);
if (!test_bit(PARAM_ISP_FLASH, p_index1))
__is_set_isp_flash(is, ISP_FLASH_COMMAND_DISABLE,
ISP_FLASH_REDEYE_DISABLE);
if (!test_bit(PARAM_ISP_AWB, p_index1))
__is_set_isp_awb(is, ISP_AWB_COMMAND_AUTO, 0);
if (!test_bit(PARAM_ISP_IMAGE_EFFECT, p_index1))
__is_set_isp_effect(is, ISP_IMAGE_EFFECT_DISABLE);
if (!test_bit(PARAM_ISP_ISO, p_index1))
__is_set_isp_iso(is, ISP_ISO_COMMAND_AUTO, 0);
if (!test_bit(PARAM_ISP_ADJUST, p_index1)) {
__is_set_isp_adjust(is, ISP_ADJUST_COMMAND_MANUAL_CONTRAST, 0);
__is_set_isp_adjust(is,
ISP_ADJUST_COMMAND_MANUAL_SATURATION, 0);
__is_set_isp_adjust(is, ISP_ADJUST_COMMAND_MANUAL_SHARPNESS, 0);
__is_set_isp_adjust(is, ISP_ADJUST_COMMAND_MANUAL_EXPOSURE, 0);
__is_set_isp_adjust(is,
ISP_ADJUST_COMMAND_MANUAL_BRIGHTNESS, 0);
__is_set_isp_adjust(is, ISP_ADJUST_COMMAND_MANUAL_HUE, 0);
}
if (!test_bit(PARAM_ISP_METERING, p_index1)) {
__is_set_isp_metering(is, 0, ISP_METERING_COMMAND_CENTER);
__is_set_isp_metering(is, 1, 0);
__is_set_isp_metering(is, 2, 0);
__is_set_isp_metering(is, 3, 0);
__is_set_isp_metering(is, 4, 0);
}
if (!test_bit(PARAM_ISP_AFC, p_index1))
__is_set_isp_afc(is, ISP_AFC_COMMAND_AUTO, 0);
isp->otf_output.cmd = OTF_OUTPUT_COMMAND_ENABLE;
if (!test_bit(PARAM_ISP_OTF_OUTPUT, p_index1)) {
isp->otf_output.width = DEFAULT_PREVIEW_STILL_WIDTH;
isp->otf_output.height = DEFAULT_PREVIEW_STILL_HEIGHT;
fimc_is_set_param_bit(is, PARAM_ISP_OTF_OUTPUT);
fimc_is_inc_param_num(is);
}
isp->otf_output.format = OTF_OUTPUT_FORMAT_YUV444;
isp->otf_output.bitwidth = 12;
isp->otf_output.order = 0;
isp->otf_output.err = OTF_OUTPUT_ERROR_NONE;
if (!test_bit(PARAM_ISP_DMA1_OUTPUT, p_index1)) {
isp->dma1_output.cmd = DMA_OUTPUT_COMMAND_DISABLE;
isp->dma1_output.width = 0;
isp->dma1_output.height = 0;
isp->dma1_output.format = 0;
isp->dma1_output.bitwidth = 0;
isp->dma1_output.plane = 0;
isp->dma1_output.order = 0;
isp->dma1_output.buffer_number = 0;
isp->dma1_output.buffer_address = 0;
isp->dma1_output.notify_dma_done = 0;
isp->dma1_output.dma_out_mask = 0;
isp->dma1_output.err = DMA_OUTPUT_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_DMA1_OUTPUT);
fimc_is_inc_param_num(is);
}
if (!test_bit(PARAM_ISP_DMA2_OUTPUT, p_index1)) {
isp->dma2_output.cmd = DMA_OUTPUT_COMMAND_DISABLE;
isp->dma2_output.width = 0;
isp->dma2_output.height = 0;
isp->dma2_output.format = 0;
isp->dma2_output.bitwidth = 0;
isp->dma2_output.plane = 0;
isp->dma2_output.order = 0;
isp->dma2_output.buffer_number = 0;
isp->dma2_output.buffer_address = 0;
isp->dma2_output.notify_dma_done = 0;
isp->dma2_output.dma_out_mask = 0;
isp->dma2_output.err = DMA_OUTPUT_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_ISP_DMA2_OUTPUT);
fimc_is_inc_param_num(is);
}
/* Sensor */
if (!test_bit(PARAM_SENSOR_FRAME_RATE, p_index1)) {
if (!mode)
__is_set_sensor(is, 0);
}
/* DRC */
drc->control.cmd = CONTROL_COMMAND_START;
__is_set_drc_control(is, CONTROL_BYPASS_ENABLE);
drc->otf_input.cmd = OTF_INPUT_COMMAND_ENABLE;
if (!test_bit(PARAM_DRC_OTF_INPUT, p_index1)) {
drc->otf_input.width = DEFAULT_PREVIEW_STILL_WIDTH;
drc->otf_input.height = DEFAULT_PREVIEW_STILL_HEIGHT;
fimc_is_set_param_bit(is, PARAM_DRC_OTF_INPUT);
fimc_is_inc_param_num(is);
}
drc->otf_input.format = OTF_INPUT_FORMAT_YUV444;
drc->otf_input.bitwidth = 12;
drc->otf_input.order = 0;
drc->otf_input.err = OTF_INPUT_ERROR_NONE;
drc->dma_input.cmd = DMA_INPUT_COMMAND_DISABLE;
drc->dma_input.width = 0;
drc->dma_input.height = 0;
drc->dma_input.format = 0;
drc->dma_input.bitwidth = 0;
drc->dma_input.plane = 0;
drc->dma_input.order = 0;
drc->dma_input.buffer_number = 0;
drc->dma_input.width = 0;
drc->dma_input.err = DMA_INPUT_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_DRC_DMA_INPUT);
fimc_is_inc_param_num(is);
drc->otf_output.cmd = OTF_OUTPUT_COMMAND_ENABLE;
if (!test_bit(PARAM_DRC_OTF_OUTPUT, p_index1)) {
drc->otf_output.width = DEFAULT_PREVIEW_STILL_WIDTH;
drc->otf_output.height = DEFAULT_PREVIEW_STILL_HEIGHT;
fimc_is_set_param_bit(is, PARAM_DRC_OTF_OUTPUT);
fimc_is_inc_param_num(is);
}
drc->otf_output.format = OTF_OUTPUT_FORMAT_YUV444;
drc->otf_output.bitwidth = 8;
drc->otf_output.order = 0;
drc->otf_output.err = OTF_OUTPUT_ERROR_NONE;
/* FD */
__is_set_fd_control(is, CONTROL_COMMAND_STOP);
fd->control.bypass = CONTROL_BYPASS_DISABLE;
fd->otf_input.cmd = OTF_INPUT_COMMAND_ENABLE;
if (!test_bit((PARAM_FD_OTF_INPUT - 32), p_index2)) {
fd->otf_input.width = DEFAULT_PREVIEW_STILL_WIDTH;
fd->otf_input.height = DEFAULT_PREVIEW_STILL_HEIGHT;
fimc_is_set_param_bit(is, PARAM_FD_OTF_INPUT);
fimc_is_inc_param_num(is);
}
fd->otf_input.format = OTF_INPUT_FORMAT_YUV444;
fd->otf_input.bitwidth = 8;
fd->otf_input.order = 0;
fd->otf_input.err = OTF_INPUT_ERROR_NONE;
fd->dma_input.cmd = DMA_INPUT_COMMAND_DISABLE;
fd->dma_input.width = 0;
fd->dma_input.height = 0;
fd->dma_input.format = 0;
fd->dma_input.bitwidth = 0;
fd->dma_input.plane = 0;
fd->dma_input.order = 0;
fd->dma_input.buffer_number = 0;
fd->dma_input.width = 0;
fd->dma_input.err = DMA_INPUT_ERROR_NONE;
fimc_is_set_param_bit(is, PARAM_FD_DMA_INPUT);
fimc_is_inc_param_num(is);
__is_set_fd_config_maxface(is, 5);
__is_set_fd_config_rollangle(is, FD_CONFIG_ROLL_ANGLE_FULL);
__is_set_fd_config_yawangle(is, FD_CONFIG_YAW_ANGLE_45_90);
__is_set_fd_config_smilemode(is, FD_CONFIG_SMILE_MODE_DISABLE);
__is_set_fd_config_blinkmode(is, FD_CONFIG_BLINK_MODE_DISABLE);
__is_set_fd_config_eyedetect(is, FD_CONFIG_EYES_DETECT_ENABLE);
__is_set_fd_config_mouthdetect(is, FD_CONFIG_MOUTH_DETECT_DISABLE);
__is_set_fd_config_orientation(is, FD_CONFIG_ORIENTATION_DISABLE);
__is_set_fd_config_orientation_val(is, 0);
}
drivers/media/platform/exynos4-is/fimc-is-param.h 0 → 100644
View file @ 294781db
/*
* Samsung EXYNOS4x12 FIMC-IS (Imaging Subsystem) driver
*
* Copyright (C) 2011 - 2013 Samsung Electronics Co., Ltd.
*
* Authors: Younghwan Joo <yhwan.joo@samsung.com>
* Sylwester Nawrocki <s.nawrocki@samsung.com>
*
* This program is free software; you can redistribute it and/or modify
* it under the terms of the GNU General Public License version 2 as
* published by the Free Software Foundation.
*/
#ifndef FIMC_IS_PARAM_H_
#define FIMC_IS_PARAM_H_
#include <linux/compiler.h>
#define FIMC_IS_CONFIG_TIMEOUT 3000 /* ms */
#define IS_DEFAULT_WIDTH 1280
#define IS_DEFAULT_HEIGHT 720
#define DEFAULT_PREVIEW_STILL_WIDTH IS_DEFAULT_WIDTH
#define DEFAULT_PREVIEW_STILL_HEIGHT IS_DEFAULT_HEIGHT
#define DEFAULT_CAPTURE_STILL_WIDTH IS_DEFAULT_WIDTH
#define DEFAULT_CAPTURE_STILL_HEIGHT IS_DEFAULT_HEIGHT
#define DEFAULT_PREVIEW_VIDEO_WIDTH IS_DEFAULT_WIDTH
#define DEFAULT_PREVIEW_VIDEO_HEIGHT IS_DEFAULT_HEIGHT
#define DEFAULT_CAPTURE_VIDEO_WIDTH IS_DEFAULT_WIDTH
#define DEFAULT_CAPTURE_VIDEO_HEIGHT IS_DEFAULT_HEIGHT
#define DEFAULT_PREVIEW_STILL_FRAMERATE 30
#define DEFAULT_CAPTURE_STILL_FRAMERATE 15
#define DEFAULT_PREVIEW_VIDEO_FRAMERATE 30
#define DEFAULT_CAPTURE_VIDEO_FRAMERATE 30
#define FIMC_IS_REGION_VER 124 /* IS REGION VERSION 1.24 */
#define FIMC_IS_PARAM_SIZE (FIMC_IS_REGION_SIZE + 1)
#define FIMC_IS_MAGIC_NUMBER 0x01020304
#define FIMC_IS_PARAM_MAX_SIZE 64 /* in bytes */
#define FIMC_IS_PARAM_MAX_ENTRIES (FIMC_IS_PARAM_MAX_SIZE / 4)
/* The parameter bitmask bit definitions. */
enum is_param_bit {
PARAM_GLOBAL_SHOTMODE,
PARAM_SENSOR_CONTROL,
PARAM_SENSOR_OTF_OUTPUT,
PARAM_SENSOR_FRAME_RATE,
PARAM_BUFFER_CONTROL,
PARAM_BUFFER_OTF_INPUT,
PARAM_BUFFER_OTF_OUTPUT,
PARAM_ISP_CONTROL,
PARAM_ISP_OTF_INPUT,
PARAM_ISP_DMA1_INPUT,
/* 10 */
PARAM_ISP_DMA2_INPUT,
PARAM_ISP_AA,
PARAM_ISP_FLASH,
PARAM_ISP_AWB,
PARAM_ISP_IMAGE_EFFECT,
PARAM_ISP_ISO,
PARAM_ISP_ADJUST,
PARAM_ISP_METERING,
PARAM_ISP_AFC,
PARAM_ISP_OTF_OUTPUT,
/* 20 */
PARAM_ISP_DMA1_OUTPUT,
PARAM_ISP_DMA2_OUTPUT,
PARAM_DRC_CONTROL,
PARAM_DRC_OTF_INPUT,
PARAM_DRC_DMA_INPUT,
PARAM_DRC_OTF_OUTPUT,
PARAM_SCALERC_CONTROL,
PARAM_SCALERC_OTF_INPUT,
PARAM_SCALERC_IMAGE_EFFECT,
PARAM_SCALERC_INPUT_CROP,
/* 30 */
PARAM_SCALERC_OUTPUT_CROP,
PARAM_SCALERC_OTF_OUTPUT,
PARAM_SCALERC_DMA_OUTPUT,
PARAM_ODC_CONTROL,
PARAM_ODC_OTF_INPUT,
PARAM_ODC_OTF_OUTPUT,
PARAM_DIS_CONTROL,
PARAM_DIS_OTF_INPUT,
PARAM_DIS_OTF_OUTPUT,
PARAM_TDNR_CONTROL,
/* 40 */
PARAM_TDNR_OTF_INPUT,
PARAM_TDNR_1ST_FRAME,
PARAM_TDNR_OTF_OUTPUT,
PARAM_TDNR_DMA_OUTPUT,
PARAM_SCALERP_CONTROL,
PARAM_SCALERP_OTF_INPUT,
PARAM_SCALERP_IMAGE_EFFECT,
PARAM_SCALERP_INPUT_CROP,
PARAM_SCALERP_OUTPUT_CROP,
PARAM_SCALERP_ROTATION,
/* 50 */
PARAM_SCALERP_FLIP,
PARAM_SCALERP_OTF_OUTPUT,
PARAM_SCALERP_DMA_OUTPUT,
PARAM_FD_CONTROL,
PARAM_FD_OTF_INPUT,
PARAM_FD_DMA_INPUT,
PARAM_FD_CONFIG,
};
/* Interrupt map */
#define FIMC_IS_INT_GENERAL 0
#define FIMC_IS_INT_FRAME_DONE_ISP 1
/* Input */
#define CONTROL_COMMAND_STOP 0
#define CONTROL_COMMAND_START 1
#define CONTROL_BYPASS_DISABLE 0
#define CONTROL_BYPASS_ENABLE 1
#define CONTROL_ERROR_NONE 0
/* OTF (On-The-Fly) input interface commands */
#define OTF_INPUT_COMMAND_DISABLE 0
#define OTF_INPUT_COMMAND_ENABLE 1
/* OTF input interface color formats */
enum oft_input_fmt {
OTF_INPUT_FORMAT_BAYER = 0, /* 1 channel */
OTF_INPUT_FORMAT_YUV444 = 1, /* 3 channels */
OTF_INPUT_FORMAT_YUV422 = 2, /* 3 channels */
OTF_INPUT_FORMAT_YUV420 = 3, /* 3 channels */
OTF_INPUT_FORMAT_STRGEN_COLORBAR_BAYER = 10,
OTF_INPUT_FORMAT_BAYER_DMA = 11,
};
#define OTF_INPUT_ORDER_BAYER_GR_BG 0
/* OTF input error codes */
#define OTF_INPUT_ERROR_NONE 0 /* Input setting is done */
/* DMA input commands */
#define DMA_INPUT_COMMAND_DISABLE 0
#define DMA_INPUT_COMMAND_ENABLE 1
/* DMA input color formats */
enum dma_input_fmt {
DMA_INPUT_FORMAT_BAYER = 0,
DMA_INPUT_FORMAT_YUV444 = 1,
DMA_INPUT_FORMAT_YUV422 = 2,
DMA_INPUT_FORMAT_YUV420 = 3,
};
enum dma_input_order {
/* (for DMA_INPUT_PLANE_3) */
DMA_INPUT_ORDER_NO = 0,
/* (only valid at DMA_INPUT_PLANE_2) */
DMA_INPUT_ORDER_CBCR = 1,
/* (only valid at DMA_INPUT_PLANE_2) */
DMA_INPUT_ORDER_CRCB = 2,
/* (only valid at DMA_INPUT_PLANE_1 & DMA_INPUT_FORMAT_YUV444) */
DMA_INPUT_ORDER_YCBCR = 3,
/* (only valid at DMA_INPUT_FORMAT_YUV422 & DMA_INPUT_PLANE_1) */
DMA_INPUT_ORDER_YYCBCR = 4,
/* (only valid at DMA_INPUT_FORMAT_YUV422 & DMA_INPUT_PLANE_1) */
DMA_INPUT_ORDER_YCBYCR = 5,
/* (only valid at DMA_INPUT_FORMAT_YUV422 & DMA_INPUT_PLANE_1) */
DMA_INPUT_ORDER_YCRYCB = 6,
/* (only valid at DMA_INPUT_FORMAT_YUV422 & DMA_INPUT_PLANE_1) */
DMA_INPUT_ORDER_CBYCRY = 7,
/* (only valid at DMA_INPUT_FORMAT_YUV422 & DMA_INPUT_PLANE_1) */
DMA_INPUT_ORDER_CRYCBY = 8,
/* (only valid at DMA_INPUT_FORMAT_BAYER) */
DMA_INPUT_ORDER_GR_BG = 9
};
#define DMA_INPUT_ERROR_NONE 0 /* DMA input setting
is done */
/*
* Data output parameter definitions
*/
#define OTF_OUTPUT_CROP_DISABLE 0
#define OTF_OUTPUT_CROP_ENABLE 1
#define OTF_OUTPUT_COMMAND_DISABLE 0
#define OTF_OUTPUT_COMMAND_ENABLE 1
enum otf_output_fmt {
OTF_OUTPUT_FORMAT_YUV444 = 1,
OTF_OUTPUT_FORMAT_YUV422 = 2,
OTF_OUTPUT_FORMAT_YUV420 = 3,
OTF_OUTPUT_FORMAT_RGB = 4,
};
#define OTF_OUTPUT_ORDER_BAYER_GR_BG 0
#define OTF_OUTPUT_ERROR_NONE 0 /* Output Setting is done */
#define DMA_OUTPUT_COMMAND_DISABLE 0
#define DMA_OUTPUT_COMMAND_ENABLE 1
enum dma_output_fmt {
DMA_OUTPUT_FORMAT_BAYER = 0,
DMA_OUTPUT_FORMAT_YUV444 = 1,
DMA_OUTPUT_FORMAT_YUV422 = 2,
DMA_OUTPUT_FORMAT_YUV420 = 3,
DMA_OUTPUT_FORMAT_RGB = 4,
};
enum dma_output_order {
DMA_OUTPUT_ORDER_NO = 0,
/* for DMA_OUTPUT_PLANE_3 */
DMA_OUTPUT_ORDER_CBCR = 1,
/* only valid at DMA_INPUT_PLANE_2) */
DMA_OUTPUT_ORDER_CRCB = 2,
/* only valid at DMA_OUTPUT_PLANE_2) */
DMA_OUTPUT_ORDER_YYCBCR = 3,
/* only valid at DMA_OUTPUT_FORMAT_YUV422 & DMA_OUTPUT_PLANE_1 */
DMA_OUTPUT_ORDER_YCBYCR = 4,
/* only valid at DMA_OUTPUT_FORMAT_YUV422 & DMA_OUTPUT_PLANE_1 */
DMA_OUTPUT_ORDER_YCRYCB = 5,
/* only valid at DMA_OUTPUT_FORMAT_YUV422 & DMA_OUTPUT_PLANE_1 */
DMA_OUTPUT_ORDER_CBYCRY = 6,
/* only valid at DMA_OUTPUT_FORMAT_YUV422 & DMA_OUTPUT_PLANE_1 */
DMA_OUTPUT_ORDER_CRYCBY = 7,
/* only valid at DMA_OUTPUT_FORMAT_YUV422 & DMA_OUTPUT_PLANE_1 */
DMA_OUTPUT_ORDER_YCBCR = 8,
/* only valid at DMA_OUTPUT_FORMAT_YUV444 & DMA_OUPUT_PLANE_1 */
DMA_OUTPUT_ORDER_CRYCB = 9,
/* only valid at DMA_OUTPUT_FORMAT_YUV444 & DMA_OUPUT_PLANE_1 */
DMA_OUTPUT_ORDER_CRCBY = 10,
/* only valid at DMA_OUTPUT_FORMAT_YUV444 & DMA_OUPUT_PLANE_1 */
DMA_OUTPUT_ORDER_CBYCR = 11,
/* only valid at DMA_OUTPUT_FORMAT_YUV444 & DMA_OUPUT_PLANE_1 */
DMA_OUTPUT_ORDER_YCRCB = 12,
/* only valid at DMA_OUTPUT_FORMAT_YUV444 & DMA_OUPUT_PLANE_1 */
DMA_OUTPUT_ORDER_CBCRY = 13,
/* only valid at DMA_OUTPUT_FORMAT_YUV444 & DMA_OUPUT_PLANE_1 */
DMA_OUTPUT_ORDER_BGR = 14,
/* only valid at DMA_OUTPUT_FORMAT_RGB */
DMA_OUTPUT_ORDER_GB_BG = 15
/* only valid at DMA_OUTPUT_FORMAT_BAYER */
};
/* enum dma_output_notify_dma_done */
#define DMA_OUTPUT_NOTIFY_DMA_DONE_DISABLE 0
#define DMA_OUTPUT_NOTIFY_DMA_DONE_ENABLE 1
/* DMA output error codes */
#define DMA_OUTPUT_ERROR_NONE 0 /* DMA output setting
is done */
/* ---------------------- Global ----------------------------------- */
#define GLOBAL_SHOTMODE_ERROR_NONE 0 /* shot-mode setting
is done */
/* 3A lock commands */
#define ISP_AA_COMMAND_START 0
#define ISP_AA_COMMAND_STOP 1
/* 3A lock target */
#define ISP_AA_TARGET_AF 1
#define ISP_AA_TARGET_AE 2
#define ISP_AA_TARGET_AWB 4
enum isp_af_mode {
ISP_AF_MODE_MANUAL = 0,
ISP_AF_MODE_SINGLE = 1,
ISP_AF_MODE_CONTINUOUS = 2,
ISP_AF_MODE_TOUCH = 3,
ISP_AF_MODE_SLEEP = 4,
ISP_AF_MODE_INIT = 5,
ISP_AF_MODE_SET_CENTER_WINDOW = 6,
ISP_AF_MODE_SET_TOUCH_WINDOW = 7
};
/* Face AF commands */
#define ISP_AF_FACE_DISABLE 0
#define ISP_AF_FACE_ENABLE 1
/* AF range */
#define ISP_AF_RANGE_NORMAL 0
#define ISP_AF_RANGE_MACRO 1
/* AF sleep */
#define ISP_AF_SLEEP_OFF 0
#define ISP_AF_SLEEP_ON 1
/* Continuous AF commands */
#define ISP_AF_CONTINUOUS_DISABLE 0
#define ISP_AF_CONTINUOUS_ENABLE 1
/* ISP AF error codes */
#define ISP_AF_ERROR_NONE 0 /* AF mode change is done */
#define ISP_AF_ERROR_NONE_LOCK_DONE 1 /* AF lock is done */
/* Flash commands */
#define ISP_FLASH_COMMAND_DISABLE 0
#define ISP_FLASH_COMMAND_MANUAL_ON 1 /* (forced flash) */
#define ISP_FLASH_COMMAND_AUTO 2
#define ISP_FLASH_COMMAND_TORCH 3 /* 3 sec */
/* Flash red-eye commads */
#define ISP_FLASH_REDEYE_DISABLE 0
#define ISP_FLASH_REDEYE_ENABLE 1
/* Flash error codes */
#define ISP_FLASH_ERROR_NONE 0 /* Flash setting is done */
/* -------------------------- AWB ------------------------------------ */
enum isp_awb_command {
ISP_AWB_COMMAND_AUTO = 0,
ISP_AWB_COMMAND_ILLUMINATION = 1,
ISP_AWB_COMMAND_MANUAL = 2
};
enum isp_awb_illumination {
ISP_AWB_ILLUMINATION_DAYLIGHT = 0,
ISP_AWB_ILLUMINATION_CLOUDY = 1,
ISP_AWB_ILLUMINATION_TUNGSTEN = 2,
ISP_AWB_ILLUMINATION_FLUORESCENT = 3
};
/* ISP AWN error codes */
#define ISP_AWB_ERROR_NONE 0 /* AWB setting is done */
/* -------------------------- Effect ----------------------------------- */
enum isp_imageeffect_command {
ISP_IMAGE_EFFECT_DISABLE = 0,
ISP_IMAGE_EFFECT_MONOCHROME = 1,
ISP_IMAGE_EFFECT_NEGATIVE_MONO = 2,
ISP_IMAGE_EFFECT_NEGATIVE_COLOR = 3,
ISP_IMAGE_EFFECT_SEPIA = 4
};
/* Image effect error codes */
#define ISP_IMAGE_EFFECT_ERROR_NONE 0 /* Image effect setting
is done */
/* ISO commands */
#define ISP_ISO_COMMAND_AUTO 0
#define ISP_ISO_COMMAND_MANUAL 1
/* ISO error codes */
#define ISP_ISO_ERROR_NONE 0 /* ISO setting is done */
/* ISP adjust commands */
#define ISP_ADJUST_COMMAND_AUTO (0 << 0)
#define ISP_ADJUST_COMMAND_MANUAL_CONTRAST (1 << 0)
#define ISP_ADJUST_COMMAND_MANUAL_SATURATION (1 << 1)
#define ISP_ADJUST_COMMAND_MANUAL_SHARPNESS (1 << 2)
#define ISP_ADJUST_COMMAND_MANUAL_EXPOSURE (1 << 3)
#define ISP_ADJUST_COMMAND_MANUAL_BRIGHTNESS (1 << 4)
#define ISP_ADJUST_COMMAND_MANUAL_HUE (1 << 5)
#define ISP_ADJUST_COMMAND_MANUAL_ALL 0x7f
/* ISP adjustment error codes */
#define ISP_ADJUST_ERROR_NONE 0 /* Adjust setting is done */
/*
* Exposure metering
*/
enum isp_metering_command {
ISP_METERING_COMMAND_AVERAGE = 0,
ISP_METERING_COMMAND_SPOT = 1,
ISP_METERING_COMMAND_MATRIX = 2,
ISP_METERING_COMMAND_CENTER = 3
};
/* ISP metering error codes */
#define ISP_METERING_ERROR_NONE 0 /* Metering setting is done */
/*
* AFC
*/
enum isp_afc_command {
ISP_AFC_COMMAND_DISABLE = 0,
ISP_AFC_COMMAND_AUTO = 1,
ISP_AFC_COMMAND_MANUAL = 2,
};
#define ISP_AFC_MANUAL_50HZ 50
#define ISP_AFC_MANUAL_60HZ 60
/* ------------------------ SCENE MODE--------------------------------- */
enum isp_scene_mode {
ISP_SCENE_NONE = 0,
ISP_SCENE_PORTRAIT = 1,
ISP_SCENE_LANDSCAPE = 2,
ISP_SCENE_SPORTS = 3,
ISP_SCENE_PARTYINDOOR = 4,
ISP_SCENE_BEACHSNOW = 5,
ISP_SCENE_SUNSET = 6,
ISP_SCENE_DAWN = 7,
ISP_SCENE_FALL = 8,
ISP_SCENE_NIGHT = 9,
ISP_SCENE_AGAINSTLIGHTWLIGHT = 10,
ISP_SCENE_AGAINSTLIGHTWOLIGHT = 11,
ISP_SCENE_FIRE = 12,
ISP_SCENE_TEXT = 13,
ISP_SCENE_CANDLE = 14
};
/* AFC error codes */
#define ISP_AFC_ERROR_NONE 0 /* AFC setting is done */
/* ---------------------------- FD ------------------------------------- */
enum fd_config_command {
FD_CONFIG_COMMAND_MAXIMUM_NUMBER = 0x1,
FD_CONFIG_COMMAND_ROLL_ANGLE = 0x2,
FD_CONFIG_COMMAND_YAW_ANGLE = 0x4,
FD_CONFIG_COMMAND_SMILE_MODE = 0x8,
FD_CONFIG_COMMAND_BLINK_MODE = 0x10,
FD_CONFIG_COMMAND_EYES_DETECT = 0x20,
FD_CONFIG_COMMAND_MOUTH_DETECT = 0x40,
FD_CONFIG_COMMAND_ORIENTATION = 0x80,
FD_CONFIG_COMMAND_ORIENTATION_VALUE = 0x100
};
enum fd_config_roll_angle {
FD_CONFIG_ROLL_ANGLE_BASIC = 0,
FD_CONFIG_ROLL_ANGLE_PRECISE_BASIC = 1,
FD_CONFIG_ROLL_ANGLE_SIDES = 2,
FD_CONFIG_ROLL_ANGLE_PRECISE_SIDES = 3,
FD_CONFIG_ROLL_ANGLE_FULL = 4,
FD_CONFIG_ROLL_ANGLE_PRECISE_FULL = 5,
};
enum fd_config_yaw_angle {
FD_CONFIG_YAW_ANGLE_0 = 0,
FD_CONFIG_YAW_ANGLE_45 = 1,
FD_CONFIG_YAW_ANGLE_90 = 2,
FD_CONFIG_YAW_ANGLE_45_90 = 3,
};
/* Smile mode configuration */
#define FD_CONFIG_SMILE_MODE_DISABLE 0
#define FD_CONFIG_SMILE_MODE_ENABLE 1
/* Blink mode configuration */
#define FD_CONFIG_BLINK_MODE_DISABLE 0
#define FD_CONFIG_BLINK_MODE_ENABLE 1
/* Eyes detection configuration */
#define FD_CONFIG_EYES_DETECT_DISABLE 0
#define FD_CONFIG_EYES_DETECT_ENABLE 1
/* Mouth detection configuration */
#define FD_CONFIG_MOUTH_DETECT_DISABLE 0
#define FD_CONFIG_MOUTH_DETECT_ENABLE 1
#define FD_CONFIG_ORIENTATION_DISABLE 0
#define FD_CONFIG_ORIENTATION_ENABLE 1
struct param_control {
u32 cmd;
u32 bypass;
u32 buffer_address;
u32 buffer_size;
u32 skip_frames; /* only valid at ISP */
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 6];
u32 err;
};
struct param_otf_input {
u32 cmd;
u32 width;
u32 height;
u32 format;
u32 bitwidth;
u32 order;
u32 crop_offset_x;
u32 crop_offset_y;
u32 crop_width;
u32 crop_height;
u32 frametime_min;
u32 frametime_max;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 13];
u32 err;
};
struct param_dma_input {
u32 cmd;
u32 width;
u32 height;
u32 format;
u32 bitwidth;
u32 plane;
u32 order;
u32 buffer_number;
u32 buffer_address;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 10];
u32 err;
};
struct param_otf_output {
u32 cmd;
u32 width;
u32 height;
u32 format;
u32 bitwidth;
u32 order;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 7];
u32 err;
};
struct param_dma_output {
u32 cmd;
u32 width;
u32 height;
u32 format;
u32 bitwidth;
u32 plane;
u32 order;
u32 buffer_number;
u32 buffer_address;
u32 notify_dma_done;
u32 dma_out_mask;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 12];
u32 err;
};
struct param_global_shotmode {
u32 cmd;
u32 skip_frames;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 3];
u32 err;
};
struct param_sensor_framerate {
u32 frame_rate;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 2];
u32 err;
};
struct param_isp_aa {
u32 cmd;
u32 target;
u32 mode;
u32 scene;
u32 sleep;
u32 face;
u32 touch_x;
u32 touch_y;
u32 manual_af_setting;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 10];
u32 err;
};
struct param_isp_flash {
u32 cmd;
u32 redeye;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 3];
u32 err;
};
struct param_isp_awb {
u32 cmd;
u32 illumination;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 3];
u32 err;
};
struct param_isp_imageeffect {
u32 cmd;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 2];
u32 err;
};
struct param_isp_iso {
u32 cmd;
u32 value;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 3];
u32 err;
};
struct param_isp_adjust {
u32 cmd;
s32 contrast;
s32 saturation;
s32 sharpness;
s32 exposure;
s32 brightness;
s32 hue;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 8];
u32 err;
};
struct param_isp_metering {
u32 cmd;
u32 win_pos_x;
u32 win_pos_y;
u32 win_width;
u32 win_height;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 6];
u32 err;
};
struct param_isp_afc {
u32 cmd;
u32 manual;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 3];
u32 err;
};
struct param_scaler_imageeffect {
u32 cmd;
u32 arbitrary_cb;
u32 arbitrary_cr;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 4];
u32 err;
};
struct param_scaler_input_crop {
u32 cmd;
u32 crop_offset_x;
u32 crop_offset_y;
u32 crop_width;
u32 crop_height;
u32 in_width;
u32 in_height;
u32 out_width;
u32 out_height;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 10];
u32 err;
};
struct param_scaler_output_crop {
u32 cmd;
u32 crop_offset_x;
u32 crop_offset_y;
u32 crop_width;
u32 crop_height;
u32 out_format;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 7];
u32 err;
};
struct param_scaler_rotation {
u32 cmd;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 2];
u32 err;
};
struct param_scaler_flip {
u32 cmd;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 2];
u32 err;
};
struct param_3dnr_1stframe {
u32 cmd;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 2];
u32 err;
};
struct param_fd_config {
u32 cmd;
u32 max_number;
u32 roll_angle;
u32 yaw_angle;
u32 smile_mode;
u32 blink_mode;
u32 eye_detect;
u32 mouth_detect;
u32 orientation;
u32 orientation_value;
u32 reserved[FIMC_IS_PARAM_MAX_ENTRIES - 11];
u32 err;
};
struct global_param {
struct param_global_shotmode shotmode;
};
struct sensor_param {
struct param_control control;
struct param_otf_output otf_output;
struct param_sensor_framerate frame_rate;
} __packed;
struct buffer_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_otf_output otf_output;
} __packed;
struct isp_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_dma_input dma1_input;
struct param_dma_input dma2_input;
struct param_isp_aa aa;
struct param_isp_flash flash;
struct param_isp_awb awb;
struct param_isp_imageeffect effect;
struct param_isp_iso iso;
struct param_isp_adjust adjust;
struct param_isp_metering metering;
struct param_isp_afc afc;
struct param_otf_output otf_output;
struct param_dma_output dma1_output;
struct param_dma_output dma2_output;
} __packed;
struct drc_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_dma_input dma_input;
struct param_otf_output otf_output;
} __packed;
struct scalerc_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_scaler_imageeffect effect;
struct param_scaler_input_crop input_crop;
struct param_scaler_output_crop output_crop;
struct param_otf_output otf_output;
struct param_dma_output dma_output;
} __packed;
struct odc_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_otf_output otf_output;
} __packed;
struct dis_param {
struct param_control control;
struct param_otf_output otf_input;
struct param_otf_output otf_output;
} __packed;
struct tdnr_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_3dnr_1stframe frame;
struct param_otf_output otf_output;
struct param_dma_output dma_output;
} __packed;
struct scalerp_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_scaler_imageeffect effect;
struct param_scaler_input_crop input_crop;
struct param_scaler_output_crop output_crop;
struct param_scaler_rotation rotation;
struct param_scaler_flip flip;
struct param_otf_output otf_output;
struct param_dma_output dma_output;
} __packed;
struct fd_param {
struct param_control control;
struct param_otf_input otf_input;
struct param_dma_input dma_input;
struct param_fd_config config;
} __packed;
struct is_param_region {
struct global_param global;
struct sensor_param sensor;
struct buffer_param buf;
struct isp_param isp;
struct drc_param drc;
struct scalerc_param scalerc;
struct odc_param odc;
struct dis_param dis;
struct tdnr_param tdnr;
struct scalerp_param scalerp;
struct fd_param fd;
} __packed;
#define NUMBER_OF_GAMMA_CURVE_POINTS 32
struct is_tune_sensor {
u32 exposure;
u32 analog_gain;
u32 frame_rate;
u32 actuator_position;
};
struct is_tune_gammacurve {
u32 num_pts_x[NUMBER_OF_GAMMA_CURVE_POINTS];
u32 num_pts_y_r[NUMBER_OF_GAMMA_CURVE_POINTS];
u32 num_pts_y_g[NUMBER_OF_GAMMA_CURVE_POINTS];
u32 num_pts_y_b[NUMBER_OF_GAMMA_CURVE_POINTS];
};
struct is_tune_isp {
/* Brightness level: range 0...100, default 7. */
u32 brightness_level;
/* Contrast level: range -127...127, default 0. */
s32 contrast_level;
/* Saturation level: range -127...127, default 0. */
s32 saturation_level;
s32 gamma_level;
struct is_tune_gammacurve gamma_curve[4];
/* Hue: range -127...127, default 0. */
s32 hue;
/* Sharpness blur: range -127...127, default 0. */
s32 sharpness_blur;
/* Despeckle : range -127~127, default : 0 */
s32 despeckle;
/* Edge color supression: range -127...127, default 0. */
s32 edge_color_supression;
/* Noise reduction: range -127...127, default 0. */
s32 noise_reduction;
/* (32 * 4 + 9) * 4 = 548 bytes */
} __packed;
struct is_tune_region {
struct is_tune_sensor sensor;
struct is_tune_isp isp;
} __packed;
struct rational {
u32 num;
u32 den;
};
struct srational {
s32 num;
s32 den;
};
#define FLASH_FIRED_SHIFT 0
#define FLASH_NOT_FIRED 0
#define FLASH_FIRED 1
#define FLASH_STROBE_SHIFT 1
#define FLASH_STROBE_NO_DETECTION 0
#define FLASH_STROBE_RESERVED 1
#define FLASH_STROBE_RETURN_LIGHT_NOT_DETECTED 2
#define FLASH_STROBE_RETURN_LIGHT_DETECTED 3
#define FLASH_MODE_SHIFT 3
#define FLASH_MODE_UNKNOWN 0
#define FLASH_MODE_COMPULSORY_FLASH_FIRING 1
#define FLASH_MODE_COMPULSORY_FLASH_SUPPRESSION 2
#define FLASH_MODE_AUTO_MODE 3
#define FLASH_FUNCTION_SHIFT 5
#define FLASH_FUNCTION_PRESENT 0
#define FLASH_FUNCTION_NONE 1
#define FLASH_RED_EYE_SHIFT 6
#define FLASH_RED_EYE_DISABLED 0
#define FLASH_RED_EYE_SUPPORTED 1
enum apex_aperture_value {
F1_0 = 0,
F1_4 = 1,
F2_0 = 2,
F2_8 = 3,
F4_0 = 4,
F5_6 = 5,
F8_9 = 6,
F11_0 = 7,
F16_0 = 8,
F22_0 = 9,
F32_0 = 10,
};
struct exif_attribute {
struct rational exposure_time;
struct srational shutter_speed;
u32 iso_speed_rating;
u32 flash;
struct srational brightness;
} __packed;
struct is_frame_header {
u32 valid;
u32 bad_mark;
u32 captured;
u32 frame_number;
struct exif_attribute exif;
} __packed;
struct is_fd_rect {
u32 offset_x;
u32 offset_y;
u32 width;
u32 height;
};
struct is_face_marker {
u32 frame_number;
struct is_fd_rect face;
struct is_fd_rect left_eye;
struct is_fd_rect right_eye;
struct is_fd_rect mouth;
u32 roll_angle;
u32 yaw_angle;
u32 confidence;
s32 smile_level;
s32 blink_level;
} __packed;
#define MAX_FRAME_COUNT 8
#define MAX_FRAME_COUNT_PREVIEW 4
#define MAX_FRAME_COUNT_CAPTURE 1
#define MAX_FACE_COUNT 16
#define MAX_SHARED_COUNT 500
struct is_region {
struct is_param_region parameter;
struct is_tune_region tune;
struct is_frame_header header[MAX_FRAME_COUNT];
struct is_face_marker face[MAX_FACE_COUNT];
u32 shared[MAX_SHARED_COUNT];
} __packed;
struct is_debug_frame_descriptor {
u32 sensor_frame_time;
u32 sensor_exposure_time;
s32 sensor_analog_gain;
/* monitor for AA */
u32 req_lei;
u32 next_next_lei_exp;
u32 next_next_lei_a_gain;
u32 next_next_lei_d_gain;
u32 next_next_lei_statlei;
u32 next_next_lei_lei;
u32 dummy0;
};
#define MAX_FRAMEDESCRIPTOR_CONTEXT_NUM (30*20) /* 600 frames */
#define MAX_VERSION_DISPLAY_BUF 32
struct is_share_region {
u32 frame_time;
u32 exposure_time;
s32 analog_gain;
u32 r_gain;
u32 g_gain;
u32 b_gain;
u32 af_position;
u32 af_status;
/* 0 : SIRC_ISP_CAMERA_AUTOFOCUSMESSAGE_NOMESSAGE */
/* 1 : SIRC_ISP_CAMERA_AUTOFOCUSMESSAGE_REACHED */
/* 2 : SIRC_ISP_CAMERA_AUTOFOCUSMESSAGE_UNABLETOREACH */
/* 3 : SIRC_ISP_CAMERA_AUTOFOCUSMESSAGE_LOST */
/* default : unknown */
u32 af_scene_type;
u32 frame_descp_onoff_control;
u32 frame_descp_update_done;
u32 frame_descp_idx;
u32 frame_descp_max_idx;
struct is_debug_frame_descriptor
dbg_frame_descp_ctx[MAX_FRAMEDESCRIPTOR_CONTEXT_NUM];
u32 chip_id;
u32 chip_rev_no;
u8 isp_fw_ver_no[MAX_VERSION_DISPLAY_BUF];
u8 isp_fw_ver_date[MAX_VERSION_DISPLAY_BUF];
u8 sirc_sdk_ver_no[MAX_VERSION_DISPLAY_BUF];
u8 sirc_sdk_rev_no[MAX_VERSION_DISPLAY_BUF];
u8 sirc_sdk_rev_date[MAX_VERSION_DISPLAY_BUF];
} __packed;
struct is_debug_control {
u32 write_point; /* 0~ 500KB boundary */
u32 assert_flag; /* 0: Not invoked, 1: Invoked */
u32 pabort_flag; /* 0: Not invoked, 1: Invoked */
u32 dabort_flag; /* 0: Not invoked, 1: Invoked */
};
struct sensor_open_extended {
u32 actuator_type;
u32 mclk;
u32 mipi_lane_num;
u32 mipi_speed;
/* Skip setfile loading when fast_open_sensor is not 0 */
u32 fast_open_sensor;
/* Activating sensor self calibration mode (6A3) */
u32 self_calibration_mode;
/* This field is to adjust I2c clock based on ACLK200 */
/* This value is varied in case of rev 0.2 */
u32 i2c_sclk;
};
#define fimc_is_inc_param_num(is) \
atomic_inc(&(is)->cfg_param[(is)->scenario_id].p_region_num)
struct fimc_is;
int fimc_is_hw_get_sensor_max_framerate(struct fimc_is *is);
void fimc_is_set_initial_params(struct fimc_is *is);
int __is_hw_update_params(struct fimc_is *is);
void __is_get_frame_size(struct fimc_is *is, struct v4l2_mbus_framefmt *mf);
void __is_set_frame_size(struct fimc_is *is, struct v4l2_mbus_framefmt *mf);
void __is_set_sensor(struct fimc_is *is, int fps);
void __is_set_isp_aa_ae(struct fimc_is *is);
void __is_set_isp_flash(struct fimc_is *is, u32 cmd, u32 redeye);
void __is_set_isp_awb(struct fimc_is *is, u32 cmd, u32 val);
void __is_set_isp_effect(struct fimc_is *is, u32 cmd);
void __is_set_isp_iso(struct fimc_is *is, u32 cmd, u32 val);
void __is_set_isp_adjust(struct fimc_is *is, u32 cmd, u32 val);
void __is_set_isp_metering(struct fimc_is *is, u32 id, u32 val);
void __is_set_isp_afc(struct fimc_is *is, u32 cmd, u32 val);
void __is_set_drc_control(struct fimc_is *is, u32 val);
void __is_set_fd_control(struct fimc_is *is, u32 val);
void __is_set_fd_config_maxface(struct fimc_is *is, u32 val);
void __is_set_fd_config_rollangle(struct fimc_is *is, u32 val);
void __is_set_fd_config_yawangle(struct fimc_is *is, u32 val);
void __is_set_fd_config_smilemode(struct fimc_is *is, u32 val);
void __is_set_fd_config_blinkmode(struct fimc_is *is, u32 val);
void __is_set_fd_config_eyedetect(struct fimc_is *is, u32 val);
void __is_set_fd_config_mouthdetect(struct fimc_is *is, u32 val);
void __is_set_fd_config_orientation(struct fimc_is *is, u32 val);
void __is_set_fd_config_orientation_val(struct fimc_is *is, u32 val);
void __is_set_isp_aa_af_mode(struct fimc_is *is, int cmd);
void __is_set_isp_aa_af_start_stop(struct fimc_is *is, int cmd);
#endif
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