jetpack-4.4.1 #8

Merged
dchvs merged 6 commits from jetpack-4.4.1 into master 2021-03-16 01:29:32 -03:00
3 changed files with 48 additions and 61 deletions

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@ -105,23 +105,24 @@ As the AE has interdependency with the digital gain. This gain it's and operatio
* Digital gain equation: * Digital gain equation:
* *
* RANGE: 1x, 7.97x * RANGE: 1x, 7.97x
* GAIN: VAL / STEPS;
* STEPS: 1/32 * STEPS: 1/32
* *
* SCALE FACTOR = 100.000 * SCALE FACTOR = 3
* *
* min_gain_val = 100.000 * min_gain_val = 102
* max_gain_val = 797.000 * max_gain_val = 160
* step_gain_val = 3125 * gain_factor = 3
*
* gain accepts mapping to range 32 - 53
*/ */
MT9M021 sensor datasheet:
* <a href="https://files.niemo.de/aptina_pdfs/MT9M021-M031_Developer_Guide.pdf">MT9M021 Developer Guide</a>
``` ```
MT9M021 sensor datasheet:
* <a href="https://files.niemo.de/aptina_pdfs/MT9M021-M031_Developer_Guide.pdf">MT9M021 Developer Guide</a>
Where, the min_gain_val, max_gain_val, step_gain_val are part of the cameras' DTSI (tegra186-tx2-spiri-camera.dtsi) fixed parameters
as per the datasheet. The step_gain_val consists of the steps (1/32 for the register) scaled to a value that makes this fraction become an significant Where, the `min_gain_val, max_gain_val, step_gain_val` are part of the cameras' DTSI (tegra186-tx2-spiri-camera.dtsi) fixed parameters
in integer. as per the datasheet. The `gain` consists on the steps (1x + n * 1/32 for the register) scaled to a value that represents this fraction in an integer value for the gain register.
#### Kernel Changes #### Kernel Changes

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@ -98,25 +98,25 @@ i2c8 = "/i2c@31e0000";
inherent_gain = "1"; inherent_gain = "1";
pix_clk_hz = "74250000"; pix_clk_hz = "74250000";
gain_factor = "3125"; gain_factor = "3";
framerate_factor = "1000000"; framerate_factor = "1000000";
exposure_factor = "1000000"; exposure_factor = "1000000";
min_gain_val = "100000"; min_gain_val = "102";
max_gain_val = "796000"; max_gain_val = "160";
step_gain_val = "1"; step_gain_val = "1";
default_gain = "100000"; default_gain = "102";
min_hdr_ratio = "1"; min_hdr_ratio = "1";
max_hdr_ratio = "1"; max_hdr_ratio = "1";
min_framerate = "2000000"; min_framerate = "2000000";
max_framerate = "60000000"; max_framerate = "60000000";
step_framerate = "1"; step_framerate = "1";
default_framerate = "60000000"; // 60.0 fps default_framerate = "60000000"; // 60.0 fps
min_exp_time = "500"; // us min_exp_time = "24000"; // us
max_exp_time = "16000"; // us max_exp_time = "74000"; // us
step_exp_time = "1"; step_exp_time = "1";
default_exp_time = "12000"; // us default_exp_time = "50000"; // us
}; };
ports { ports {
#address-cells = <0x1>; #address-cells = <0x1>;
@ -185,25 +185,25 @@ i2c8 = "/i2c@31e0000";
inherent_gain = "1"; inherent_gain = "1";
pix_clk_hz = "74250000"; pix_clk_hz = "74250000";
gain_factor = "3125"; gain_factor = "3";
framerate_factor = "1000000"; framerate_factor = "1000000";
exposure_factor = "1000000"; exposure_factor = "1000000";
min_gain_val = "100000"; min_gain_val = "102";
max_gain_val = "796000"; max_gain_val = "160" ;
step_gain_val = "1"; step_gain_val = "1";
default_gain = "100000"; default_gain = "102";
min_hdr_ratio = "1"; min_hdr_ratio = "1";
max_hdr_ratio = "1"; max_hdr_ratio = "1";
min_framerate = "2000000"; min_framerate = "2000000";
max_framerate = "60000000"; max_framerate = "60000000";
step_framerate = "1"; step_framerate = "1";
default_framerate = "60000000"; // 60.0 fps default_framerate = "60000000"; // 60.0 fps
min_exp_time = "500"; // us min_exp_time = "24000"; // us
max_exp_time = "16000"; // us max_exp_time = "74000"; // us
step_exp_time = "1"; step_exp_time = "1";
default_exp_time = "12000"; // us default_exp_time = "50000"; // us
}; };
ports { ports {
#address-cells = <0x1>; #address-cells = <0x1>;

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@ -135,8 +135,8 @@
#define MT9M021_ANALOG_GAIN_SHIFT 4 #define MT9M021_ANALOG_GAIN_SHIFT 4
#define MT9M021_ANALOG_GAIN_MASK 0x0030 #define MT9M021_ANALOG_GAIN_MASK 0x0030
#define MT9M021_GLOBAL_GAIN_MIN 100000 #define MT9M021_GLOBAL_GAIN_MIN 100
#define MT9M021_GLOBAL_GAIN_MAX 796000 #define MT9M021_GLOBAL_GAIN_MAX 762
#define MT9M021_GLOBAL_GAIN_DEF 100 #define MT9M021_GLOBAL_GAIN_DEF 100
#define MT9M021_COARSE_INT_TIME_MIN 0x0001 #define MT9M021_COARSE_INT_TIME_MIN 0x0001
@ -417,18 +417,17 @@ static int mt9m021_set_gain(struct tegracam_device *tc_dev, s64 val)
* Digital gain equation: * Digital gain equation:
* *
* RANGE: 1x, 7.97x * RANGE: 1x, 7.97x
* GAIN: VAL / STEPS;
* STEPS: 1/32 * STEPS: 1/32
* *
* SCALE FACTOR = 100.000 * SCALE FACTOR = 3
* *
* min_gain_val = 100.000 * min_gain_val = 102
* max_gain_val = 797.000 * max_gain_val = 160
* gain_factor = 3125 * gain_factor = 3
* *
* gain maps to range 32 - 255 * gain accepts mapping to range 32 - 53
*/ */
gain = val / 3125; gain = val / 3;
/* Update analog gain multiplier */ /* Update analog gain multiplier */
err = mt9m021_read_reg16(s_data, MT9M021_DIGITAL_TEST, &reg16); err = mt9m021_read_reg16(s_data, MT9M021_DIGITAL_TEST, &reg16);
@ -439,14 +438,12 @@ static int mt9m021_set_gain(struct tegracam_device *tc_dev, s64 val)
((gain_mul << MT9M021_ANALOG_GAIN_SHIFT) & ((gain_mul << MT9M021_ANALOG_GAIN_SHIFT) &
MT9M021_ANALOG_GAIN_MASK); MT9M021_ANALOG_GAIN_MASK);
err = mt9m021_write_reg16(s_data, MT9M021_DIGITAL_TEST, reg16); err = mt9m021_write_reg16(s_data, MT9M021_DIGITAL_TEST, reg16);
// msleep(10);
if (err) if (err)
goto exit; goto exit;
/* Update global gain */ /* Update global gain */
err = err =
mt9m021_write_reg16(s_data, MT9M021_GLOBAL_GAIN, gain); mt9m021_write_reg16(s_data, MT9M021_GLOBAL_GAIN, gain);
// msleep(10);
if (err) if (err)
goto exit; goto exit;
err = err =
@ -473,7 +470,7 @@ static int mt9m021_set_frame_length(struct mt9m021 *priv, s64 val)
err = mt9m021_write_reg16(s_data, MT9M021_FRAME_LENGTH_LINES, val); err = mt9m021_write_reg16(s_data, MT9M021_FRAME_LENGTH_LINES, val);
if (err) if (err)
return err; return err;
msleep(30); msleep(30);
return 0; return 0;
} }
@ -520,19 +517,18 @@ static int mt9m021_set_coarse_time(struct mt9m021 *priv, s64 val)
err = mt9m021_write_reg16(s_data, MT9M021_COARSE_INT_TIME_CB, val); err = mt9m021_write_reg16(s_data, MT9M021_COARSE_INT_TIME_CB, val);
if (err) if (err)
return err; return err;
// msleep(30);
return 0; return 0;
} }
static int mt9m021_set_exposure(struct tegracam_device *tc_dev, s64 val) static int mt9m021_set_exposure(struct tegracam_device *tc_dev, s64 val)
{ {
struct camera_common_data *s_data = tc_dev->s_data; struct camera_common_data *s_data = tc_dev->s_data;
struct mt9m021 *priv = (struct mt9m021 *)tc_dev->priv; struct mt9m021 *priv = (struct mt9m021 *)tc_dev->priv;
struct device *dev = tc_dev->dev; struct device *dev = tc_dev->dev;
const struct sensor_mode_properties *mode = const struct sensor_mode_properties *mode =
&s_data->sensor_props.sensor_modes[s_data->mode]; &s_data->sensor_props.sensor_modes[s_data->mode];
u64 coarse_time; u64 coarse_time;
int err = 0; int err = 0;
dev_dbg(dev, "Setting Exposure Time to : %lld", val); dev_dbg(dev, "Setting Exposure Time to : %lld", val);
@ -571,7 +567,6 @@ static int mt9m021_set_analog_gain(struct tegracam_device *tc_dev, s64 val)
((val << MT9M021_ANALOG_GAIN_SHIFT) & ((val << MT9M021_ANALOG_GAIN_SHIFT) &
MT9M021_ANALOG_GAIN_MASK); MT9M021_ANALOG_GAIN_MASK);
err = mt9m021_write_reg16(s_data, MT9M021_DIGITAL_TEST, reg16); err = mt9m021_write_reg16(s_data, MT9M021_DIGITAL_TEST, reg16);
// msleep(30);
if (err) if (err)
goto exit; goto exit;
@ -627,7 +622,6 @@ static int mt9m021_set_digital_gain(struct tegracam_device *tc_dev, s64 val,
err = mt9m021_write_reg16(s_data, gain_cb_reg, val); err = mt9m021_write_reg16(s_data, gain_cb_reg, val);
if (err) if (err)
goto exit; goto exit;
// msleep(30);
return 0; return 0;
@ -650,7 +644,6 @@ static int mt9m021_set_test_pattern(struct tegracam_device *tc_dev, s32 val)
else else
err = mt9m021_write_reg16(s_data, MT9M021_TEST_PATTERN, err = mt9m021_write_reg16(s_data, MT9M021_TEST_PATTERN,
val); val);
// msleep(30);
if (err) if (err)
goto exit; goto exit;
@ -963,15 +956,10 @@ static int mt9m021_col_correction(struct mt9m021 *priv)
if (ret < 0) if (ret < 0)
return ret; return ret;
// msleep(200);
// usleep(200);
/* Enable Streaming */ /* Enable Streaming */
ret = mt9m021_write_table(priv, mode_table[MT9M021_MODE_START_STREAM]); ret = mt9m021_write_table(priv, mode_table[MT9M021_MODE_START_STREAM]);
if (ret < 0) if (ret < 0)
return ret; return ret;
// msleep(200);
// usleep(200);
/* Disable Streaming */ /* Disable Streaming */
ret = mt9m021_write_table(priv, mode_table[MT9M021_MODE_STOP_STREAM]); ret = mt9m021_write_table(priv, mode_table[MT9M021_MODE_STOP_STREAM]);
@ -982,8 +970,6 @@ static int mt9m021_col_correction(struct mt9m021 *priv)
ret = mt9m021_write_reg16(s_data, MT9M021_COLUMN_CORRECTION, 0xE007); ret = mt9m021_write_reg16(s_data, MT9M021_COLUMN_CORRECTION, 0xE007);
if (ret < 0) if (ret < 0)
return ret; return ret;
// msleep(200);
// usleep(200);
return ret; return ret;
} }