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ov7725.c
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ov7725.c
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/*
* This file is part of the OpenMV project.
* Copyright (c) 2013/2014 Ibrahim Abdelkader <i.abdalkader@gmail.com>
* This work is licensed under the MIT license, see the file LICENSE for details.
*
* OV7725 driver.
*
*/
#include <stdint.h>
#include <stdlib.h>
#include <string.h>
#include STM32_HAL_H
#include "cambus.h"
#include "ov7725.h"
#include "ov7725_regs.h"
#include "systick.h"
#include "omv_boardconfig.h"
static const uint8_t default_regs[][2] = {
// From App Note.
{COM12, 0x03},
{HSTART, 0x22},
{HSIZE, 0xa4},
{VSTART, 0x07},
{VSIZE, 0xf0},
{HREF, 0x00},
{HOUTSIZE, 0xa0},
{VOUTSIZE, 0xf0},
{EXHCH, 0x00},
{CLKRC, 0xC0}, // {CLKRC, 0x01},
{TGT_B, 0x7f},
{FIXGAIN, 0x09},
{AWB_CTRL0, 0xe0},
{DSP_CTRL1, 0xff},
{DSP_CTRL2, 0x20 | DSP_CTRL2_VDCW_EN | DSP_CTRL2_HDCW_EN | DSP_CTRL2_VZOOM_EN | DSP_CTRL2_HZOOM_EN}, // {DSP_CTRL2, 0x20},
{DSP_CTRL3, 0x00},
{DSP_CTRL4, 0x48},
{COM8, 0xf0},
{COM4, OMV_OV7725_PLL_CONFIG}, // {COM4, 0x41},
{COM6, 0xc5},
{COM9, 0x11},
{BDBASE, 0x7f},
{BDSTEP, 0x03},
{AEW, 0x40},
{AEB, 0x30},
{VPT, 0xa1},
{EXHCL, 0x00},
{AWB_CTRL3, 0xaa},
{COM8, 0xff},
{EDGE1, 0x05},
{DNSOFF, 0x01},
{EDGE2, 0x03},
{EDGE3, 0x00},
{MTX1, 0xb0},
{MTX2, 0x9d},
{MTX3, 0x13},
{MTX4, 0x16},
{MTX5, 0x7b},
{MTX6, 0x91},
{MTX_CTRL, 0x1e},
{BRIGHTNESS, 0x08},
{CONTRAST, 0x20},
{UVADJ0, 0x81},
{SDE, SDE_CONT_BRIGHT_EN | SDE_SATURATION_EN},
{GAM1, 0x0c},
{GAM2, 0x16},
{GAM3, 0x2a},
{GAM4, 0x4e},
{GAM5, 0x61},
{GAM6, 0x6f},
{GAM7, 0x7b},
{GAM8, 0x86},
{GAM9, 0x8e},
{GAM10, 0x97},
{GAM11, 0xa4},
{GAM12, 0xaf},
{GAM13, 0xc5},
{GAM14, 0xd7},
{GAM15, 0xe8},
{SLOP, 0x20},
{DM_LNL, 0x00},
{BDBASE, OMV_OV7725_BANDING}, // {BDBASE, 0x7f}
{BDSTEP, 0x03},
{LC_RADI, 0x10},
{LC_COEF, 0x10},
{LC_COEFB, 0x14},
{LC_COEFR, 0x17},
{LC_CTR, 0x01}, // {LC_CTR, 0x05},
{COM5, 0xf5}, // {COM5, 0x65},
// OpenMV Custom.
{COM7, COM7_FMT_RGB565},
// End.
{0x00, 0x00},
};
#define NUM_BRIGHTNESS_LEVELS (9)
static const uint8_t brightness_regs[NUM_BRIGHTNESS_LEVELS][2] = {
{0x38, 0x0e}, /* -4 */
{0x28, 0x0e}, /* -3 */
{0x18, 0x0e}, /* -2 */
{0x08, 0x0e}, /* -1 */
{0x08, 0x06}, /* 0 */
{0x18, 0x06}, /* +1 */
{0x28, 0x06}, /* +2 */
{0x38, 0x06}, /* +3 */
{0x48, 0x06}, /* +4 */
};
#define NUM_CONTRAST_LEVELS (9)
static const uint8_t contrast_regs[NUM_CONTRAST_LEVELS][1] = {
{0x10}, /* -4 */
{0x14}, /* -3 */
{0x18}, /* -2 */
{0x1C}, /* -1 */
{0x20}, /* 0 */
{0x24}, /* +1 */
{0x28}, /* +2 */
{0x2C}, /* +3 */
{0x30}, /* +4 */
};
#define NUM_SATURATION_LEVELS (9)
static const uint8_t saturation_regs[NUM_SATURATION_LEVELS][2] = {
{0x00, 0x00}, /* -4 */
{0x10, 0x10}, /* -3 */
{0x20, 0x20}, /* -2 */
{0x30, 0x30}, /* -1 */
{0x40, 0x40}, /* 0 */
{0x50, 0x50}, /* +1 */
{0x60, 0x60}, /* +2 */
{0x70, 0x70}, /* +3 */
{0x80, 0x80}, /* +4 */
};
static int reset(sensor_t *sensor)
{
// Reset all registers
int ret = cambus_writeb(sensor->slv_addr, COM7, COM7_RESET);
// Delay 2 ms
systick_sleep(2);
// Write default regsiters
for (int i = 0; default_regs[i][0]; i++) {
ret |= cambus_writeb(sensor->slv_addr, default_regs[i][0], default_regs[i][1]);
}
// Delay 300 ms
systick_sleep(300);
return ret;
}
static int sleep(sensor_t *sensor, int enable)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM2, ®);
if (enable) {
reg |= COM2_SOFT_SLEEP;
} else {
reg &= ~COM2_SOFT_SLEEP;
}
// Write back register
return cambus_writeb(sensor->slv_addr, COM2, reg) | ret;
}
static int read_reg(sensor_t *sensor, uint8_t reg_addr)
{
uint8_t reg_data;
if (cambus_readb(sensor->slv_addr, reg_addr, ®_data) != 0) {
return -1;
}
return reg_data;
}
static int write_reg(sensor_t *sensor, uint8_t reg_addr, uint16_t reg_data)
{
return cambus_writeb(sensor->slv_addr, reg_addr, reg_data);
}
static int set_pixformat(sensor_t *sensor, pixformat_t pixformat)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM7, ®);
switch (pixformat) {
case PIXFORMAT_RGB565:
reg = COM7_SET_FMT(reg, COM7_FMT_RGB);
ret |= cambus_writeb(sensor->slv_addr, DSP_CTRL4, DSP_CTRL4_YUV_RGB);
break;
case PIXFORMAT_YUV422:
case PIXFORMAT_GRAYSCALE:
reg = COM7_SET_FMT(reg, COM7_FMT_YUV);
ret |= cambus_writeb(sensor->slv_addr, DSP_CTRL4, DSP_CTRL4_YUV_RGB);
break;
case PIXFORMAT_BAYER:
reg = COM7_SET_FMT(reg, COM7_FMT_P_BAYER);
ret |= cambus_writeb(sensor->slv_addr, DSP_CTRL4, DSP_CTRL4_RAW8);
break;
default:
return -1;
}
// Write back register
return cambus_writeb(sensor->slv_addr, COM7, reg) | ret;
}
static int set_framesize(sensor_t *sensor, framesize_t framesize)
{
int ret=0;
uint16_t w = resolution[framesize][0];
uint16_t h = resolution[framesize][1];
// Write MSBs
ret |= cambus_writeb(sensor->slv_addr, HOUTSIZE, w>>2);
ret |= cambus_writeb(sensor->slv_addr, VOUTSIZE, h>>1);
// Write LSBs
ret |= cambus_writeb(sensor->slv_addr, EXHCH, ((w&0x3) | ((h&0x1) << 2)));
if ((w <= 320) && (h <= 240)) {
// Set QVGA Resolution
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM7, ®);
reg = COM7_SET_RES(reg, COM7_RES_QVGA);
ret |= cambus_writeb(sensor->slv_addr, COM7, reg);
// Set QVGA Window Size
ret |= cambus_writeb(sensor->slv_addr, HSTART, 0x3F);
ret |= cambus_writeb(sensor->slv_addr, HSIZE, 0x50);
ret |= cambus_writeb(sensor->slv_addr, VSTART, 0x03);
ret |= cambus_writeb(sensor->slv_addr, VSIZE, 0x78);
// Enable auto-scaling/zooming factors
ret |= cambus_writeb(sensor->slv_addr, DSPAUTO, 0xFF);
} else {
// Set VGA Resolution
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM7, ®);
reg = COM7_SET_RES(reg, COM7_RES_VGA);
ret |= cambus_writeb(sensor->slv_addr, COM7, reg);
// Set VGA Window Size
ret |= cambus_writeb(sensor->slv_addr, HSTART, 0x23);
ret |= cambus_writeb(sensor->slv_addr, HSIZE, 0xA0);
ret |= cambus_writeb(sensor->slv_addr, VSTART, 0x07);
ret |= cambus_writeb(sensor->slv_addr, VSIZE, 0xF0);
// Disable auto-scaling/zooming factors
ret |= cambus_writeb(sensor->slv_addr, DSPAUTO, 0xF3);
// Clear auto-scaling/zooming factors
ret |= cambus_writeb(sensor->slv_addr, SCAL0, 0x00);
ret |= cambus_writeb(sensor->slv_addr, SCAL1, 0x40);
ret |= cambus_writeb(sensor->slv_addr, SCAL2, 0x40);
}
return ret;
}
static int set_framerate(sensor_t *sensor, framerate_t framerate)
{
return 0;
}
static int set_contrast(sensor_t *sensor, int level)
{
level += (NUM_CONTRAST_LEVELS / 2);
if (level < 0 || level >= NUM_CONTRAST_LEVELS) {
return -1;
}
return cambus_writeb(sensor->slv_addr, CONTRAST, contrast_regs[level][0]);
}
static int set_brightness(sensor_t *sensor, int level)
{
int ret=0;
level += (NUM_BRIGHTNESS_LEVELS / 2);
if (level < 0 || level >= NUM_BRIGHTNESS_LEVELS) {
return -1;
}
ret |= cambus_writeb(sensor->slv_addr, BRIGHTNESS, brightness_regs[level][0]);
ret |= cambus_writeb(sensor->slv_addr, SIGN_BIT, brightness_regs[level][1]);
return ret;
}
static int set_saturation(sensor_t *sensor, int level)
{
int ret=0;
level += (NUM_SATURATION_LEVELS / 2 );
if (level < 0 || level >= NUM_SATURATION_LEVELS) {
return -1;
}
ret |= cambus_writeb(sensor->slv_addr, USAT, saturation_regs[level][0]);
ret |= cambus_writeb(sensor->slv_addr, VSAT, saturation_regs[level][1]);
return ret;
}
static int set_gainceiling(sensor_t *sensor, gainceiling_t gainceiling)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM9, ®);
// Set gain ceiling
reg = COM9_SET_AGC(reg, gainceiling);
return cambus_writeb(sensor->slv_addr, COM9, reg) | ret;
}
static int set_colorbar(sensor_t *sensor, int enable)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM3, ®);
// Enable colorbar test pattern output
reg = COM3_SET_CBAR(reg, enable);
ret |= cambus_writeb(sensor->slv_addr, COM3, reg);
// Enable DSP colorbar output
ret |= cambus_readb(sensor->slv_addr, DSP_CTRL3, ®);
reg = DSP_CTRL3_SET_CBAR(reg, enable);
return cambus_writeb(sensor->slv_addr, DSP_CTRL3, reg) | ret;
}
static int set_auto_gain(sensor_t *sensor, int enable, float gain_db, float gain_db_ceiling)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM8, ®);
ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AGC(reg, (enable != 0)));
if ((enable == 0) && (!isnanf(gain_db)) && (!isinff(gain_db))) {
float gain = IM_MAX(IM_MIN(fast_expf((gain_db / 20.0) * fast_log(10.0)), 32.0), 1.0);
int gain_temp = fast_roundf(fast_log2(IM_MAX(gain / 2.0, 1.0)));
int gain_hi = 0xF >> (4 - gain_temp);
int gain_lo = IM_MIN(fast_roundf(((gain / (1 << gain_temp)) - 1.0) * 16.0), 15);
ret |= cambus_writeb(sensor->slv_addr, GAIN, (gain_hi << 4) | (gain_lo << 0));
} else if ((enable != 0) && (!isnanf(gain_db_ceiling)) && (!isinff(gain_db_ceiling))) {
float gain_ceiling = IM_MAX(IM_MIN(fast_expf((gain_db_ceiling / 20.0) * fast_log(10.0)), 32.0), 2.0);
ret |= cambus_readb(sensor->slv_addr, COM9, ®);
ret |= cambus_writeb(sensor->slv_addr, COM9, (reg & 0x8F) | ((fast_ceilf(fast_log2(gain_ceiling)) - 1) << 4));
}
return ret;
}
static int get_gain_db(sensor_t *sensor, float *gain_db)
{
uint8_t reg, gain;
int ret = cambus_readb(sensor->slv_addr, COM8, ®);
// DISABLED
// if (reg & COM8_AGC_EN) {
// ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AGC(reg, 0));
// }
// DISABLED
ret |= cambus_readb(sensor->slv_addr, GAIN, &gain);
// DISABLED
// if (reg & COM8_AGC_EN) {
// ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AGC(reg, 1));
// }
// DISABLED
int hi_gain = 1 << (((gain >> 7) & 1) + ((gain >> 6) & 1) + ((gain >> 5) & 1) + ((gain >> 4) & 1));
float lo_gain = 1.0 + (((gain >> 0) & 0xF) / 16.0);
*gain_db = 20.0 * (fast_log(hi_gain * lo_gain) / fast_log(10.0));
return ret;
}
static int set_auto_exposure(sensor_t *sensor, int enable, int exposure_us)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM8, ®);
ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AEC(reg, (enable != 0)));
if ((enable == 0) && (exposure_us >= 0)) {
ret |= cambus_readb(sensor->slv_addr, COM7, ®);
int t_line = (reg & COM7_RES_QVGA) ? (320 + 256) : (640 + 144);
int t_pclk = (COM7_GET_FMT(reg) == COM7_FMT_P_BAYER) ? 1 : 2;
ret |= cambus_readb(sensor->slv_addr, COM4, ®);
int pll_mult = 0;
if (COM4_GET_PLL(reg) == COM4_PLL_BYPASS) pll_mult = 1;
if (COM4_GET_PLL(reg) == COM4_PLL_4x) pll_mult = 4;
if (COM4_GET_PLL(reg) == COM4_PLL_6x) pll_mult = 6;
if (COM4_GET_PLL(reg) == COM4_PLL_8x) pll_mult = 8;
ret |= cambus_readb(sensor->slv_addr, CLKRC, ®);
int clk_rc = 0;
if (reg & CLKRC_NO_PRESCALE) {
clk_rc = 1;
} else {
clk_rc = ((reg & CLKRC_PRESCALER) + 1) * 2;
}
int exposure = IM_MAX(IM_MIN(((exposure_us*(((OMV_XCLK_FREQUENCY/clk_rc)*pll_mult)/1000000))/t_pclk)/t_line,0xFFFF),0x0000);
ret |= cambus_writeb(sensor->slv_addr, AEC, ((exposure >> 0) & 0xFF));
ret |= cambus_writeb(sensor->slv_addr, AECH, ((exposure >> 8) & 0xFF));
}
return ret;
}
static int get_exposure_us(sensor_t *sensor, int *exposure_us)
{
uint8_t reg, aec_l, aec_h;
int ret = cambus_readb(sensor->slv_addr, COM8, ®);
// DISABLED
// if (reg & COM8_AEC_EN) {
// ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AEC(reg, 0));
// }
// DISABLED
ret |= cambus_readb(sensor->slv_addr, AEC, &aec_l);
ret |= cambus_readb(sensor->slv_addr, AECH, &aec_h);
// DISABLED
// if (reg & COM8_AEC_EN) {
// ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AEC(reg, 1));
// }
// DISABLED
ret |= cambus_readb(sensor->slv_addr, COM7, ®);
int t_line = (reg & COM7_RES_QVGA) ? (320 + 256) : (640 + 144);
int t_pclk = (COM7_GET_FMT(reg) == COM7_FMT_P_BAYER) ? 1 : 2;
ret |= cambus_readb(sensor->slv_addr, COM4, ®);
int pll_mult = 0;
if (COM4_GET_PLL(reg) == COM4_PLL_BYPASS) pll_mult = 1;
if (COM4_GET_PLL(reg) == COM4_PLL_4x) pll_mult = 4;
if (COM4_GET_PLL(reg) == COM4_PLL_6x) pll_mult = 6;
if (COM4_GET_PLL(reg) == COM4_PLL_8x) pll_mult = 8;
ret |= cambus_readb(sensor->slv_addr, CLKRC, ®);
int clk_rc = 0;
if (reg & CLKRC_NO_PRESCALE) {
clk_rc = 1;
} else {
clk_rc = ((reg & CLKRC_PRESCALER) + 1) * 2;
}
*exposure_us = (((aec_h<<8)+(aec_l<<0))*t_line*t_pclk)/(((OMV_XCLK_FREQUENCY/clk_rc)*pll_mult)/1000000);
return ret;
}
static int set_auto_whitebal(sensor_t *sensor, int enable, float r_gain_db, float g_gain_db, float b_gain_db)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM8, ®);
ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AWB(reg, (enable != 0)));
if ((enable == 0) && (!isnanf(r_gain_db)) && (!isnanf(g_gain_db)) && (!isnanf(b_gain_db))
&& (!isinff(r_gain_db)) && (!isinff(g_gain_db)) && (!isinff(b_gain_db))) {
ret |= cambus_readb(sensor->slv_addr, AWB_CTRL1, ®);
float gain_div = (reg & 0x2) ? 64.0 : 128.0;
int r_gain = IM_MAX(IM_MIN(fast_roundf(fast_expf((r_gain_db / 20.0) * fast_log(10.0)) * gain_div), 255), 0);
int g_gain = IM_MAX(IM_MIN(fast_roundf(fast_expf((g_gain_db / 20.0) * fast_log(10.0)) * gain_div), 255), 0);
int b_gain = IM_MAX(IM_MIN(fast_roundf(fast_expf((b_gain_db / 20.0) * fast_log(10.0)) * gain_div), 255), 0);
ret |= cambus_writeb(sensor->slv_addr, BLUE, b_gain);
ret |= cambus_writeb(sensor->slv_addr, RED, r_gain);
ret |= cambus_writeb(sensor->slv_addr, GREEN, g_gain);
}
return ret;
}
static int get_rgb_gain_db(sensor_t *sensor, float *r_gain_db, float *g_gain_db, float *b_gain_db)
{
uint8_t reg, blue, red, green;
int ret = cambus_readb(sensor->slv_addr, COM8, ®);
// DISABLED
// if (reg & COM8_AWB_EN) {
// ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AWB(reg, 0));
// }
// DISABLED
ret |= cambus_readb(sensor->slv_addr, BLUE, &blue);
ret |= cambus_readb(sensor->slv_addr, RED, &red);
ret |= cambus_readb(sensor->slv_addr, GREEN, &green);
// DISABLED
// if (reg & COM8_AWB_EN) {
// ret |= cambus_writeb(sensor->slv_addr, COM8, COM8_SET_AWB(reg, 1));
// }
// DISABLED
ret |= cambus_readb(sensor->slv_addr, AWB_CTRL1, ®);
float gain_div = (reg & 0x2) ? 64.0 : 128.0;
*r_gain_db = 20.0 * (fast_log(red / gain_div) / fast_log(10.0));
*g_gain_db = 20.0 * (fast_log(green / gain_div) / fast_log(10.0));
*b_gain_db = 20.0 * (fast_log(blue / gain_div) / fast_log(10.0));
return ret;
}
static int set_hmirror(sensor_t *sensor, int enable)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM3, ®);
ret |= cambus_writeb(sensor->slv_addr, COM3, COM3_SET_MIRROR(reg, enable)) ;
return ret;
}
static int set_vflip(sensor_t *sensor, int enable)
{
uint8_t reg;
int ret = cambus_readb(sensor->slv_addr, COM3, ®);
ret |= cambus_writeb(sensor->slv_addr, COM3, COM3_SET_FLIP(reg, enable));
return ret;
}
static int set_special_effect(sensor_t *sensor, sde_t sde)
{
int ret=0;
switch (sde) {
case SDE_NEGATIVE:
ret |= cambus_writeb(sensor->slv_addr, SDE, 0x46);
break;
case SDE_NORMAL:
ret |= cambus_writeb(sensor->slv_addr, SDE, 0x06);
ret |= cambus_writeb(sensor->slv_addr, UFIX, 0x80);
ret |= cambus_writeb(sensor->slv_addr, VFIX, 0x80);
break;
default:
return -1;
}
return ret;
}
static int set_lens_correction(sensor_t *sensor, int enable, int radi, int coef)
{
int ret=0;
ret |= cambus_writeb(sensor->slv_addr, LC_CTR, (enable&0x01));
ret |= cambus_writeb(sensor->slv_addr, LC_RADI, radi);
ret |= cambus_writeb(sensor->slv_addr, LC_COEF, coef);
return ret;
}
int ov7725_init(sensor_t *sensor)
{
// Initialize sensor structure.
sensor->gs_bpp = 2;
sensor->reset = reset;
sensor->sleep = sleep;
sensor->read_reg = read_reg;
sensor->write_reg = write_reg;
sensor->set_pixformat = set_pixformat;
sensor->set_framesize = set_framesize;
sensor->set_framerate = set_framerate;
sensor->set_contrast = set_contrast;
sensor->set_brightness = set_brightness;
sensor->set_saturation = set_saturation;
sensor->set_gainceiling = set_gainceiling;
sensor->set_colorbar = set_colorbar;
sensor->set_auto_gain = set_auto_gain;
sensor->get_gain_db = get_gain_db;
sensor->set_auto_exposure = set_auto_exposure;
sensor->get_exposure_us = get_exposure_us;
sensor->set_auto_whitebal = set_auto_whitebal;
sensor->get_rgb_gain_db = get_rgb_gain_db;
sensor->set_hmirror = set_hmirror;
sensor->set_vflip = set_vflip;
sensor->set_special_effect = set_special_effect;
sensor->set_lens_correction = set_lens_correction;
// Set sensor flags
SENSOR_HW_FLAGS_SET(sensor, SENSOR_HW_FLAGS_VSYNC, 1);
SENSOR_HW_FLAGS_SET(sensor, SENSOR_HW_FLAGS_HSYNC, 0);
SENSOR_HW_FLAGS_SET(sensor, SENSOR_HW_FLAGS_PIXCK, 1);
SENSOR_HW_FLAGS_SET(sensor, SENSOR_HW_FLAGS_FSYNC, 1);
SENSOR_HW_FLAGS_SET(sensor, SENSOR_HW_FLAGS_JPEGE, 0);
return 0;
}