tegrakernel/kernel/nvidia/include/linux/nvs_proximity.h

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2022-02-16 09:13:02 -06:00
/* Copyright (c) 2014-2015, NVIDIA CORPORATION. All rights reserved.
*
* This software is licensed under the terms of the GNU General Public
* License version 2, as published by the Free Software Foundation, and
* may be copied, distributed, and modified under those terms.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*/
#ifndef _NVS_PROXIMITY_H_
#define _NVS_PROXIMITY_H_
#include <linux/of.h>
#include <linux/nvs.h>
#define RET_POLL_NEXT (-1)
#define RET_NO_CHANGE (0)
#define RET_HW_UPDATE (1)
#define NVS_PROXIMITY_STRING "proximity"
/**
* struct nvs_proximity - the common structure between the
* proximity driver and the NVS common module for proximity.
* @timestamp: Driver writes the timestamp HW was read.
* @timestamp_report: NVS writes the timestamp used to report.
* @proximity: NVS writes the proximity value that is reported.
* @hw: Driver writes the value read from HW.
* @hw_mask: Driver writes the HW value mask (maximum value).
* @hw_thresh_lo: NVS writes the low threshold value needed.
* @hw_thresh_hi: NVS writes the high threshold value needed.
* @hw_limit_lo: NVS determines if HW at low limit. Driver can
* use this for dynamic resolution if disabled in
* NVS. See nld_tbl.
* @hw_limit_hi: NVS determines if HW at high limit. Driver can
* use this for dynamic resolution if disabled in
* NVS. See nld_tbl.
* @thresh_valid_lo: NVS determines if cfg.thresh_lo valid.
* @thresh_valid_hi: NVS determines if cfg.thresh_hi valid.
* @thresholds_valid: NVS determines if both thresholds valid.
* @calibration_en: NVS determines if calibration is enabled.
* @dynamic_resolution_dis: Driver can set this to true if the
* resolution is static.
* Note: dynamic resolution allows floating point to be
* calculated in the kernel by shifting up to integer the
* floating point significant amount. This allows
* real-time resolution changes without the NVS HAL having
* to synchronize to the actual resolution per data value.
* The scale.fval must be a 10 base value, e.g. 0.1, 0.01,
* ... 0.000001, etc. as the significant amount. The NVS
* HAL will then convert the integer float-data to a float
* value by multiplying it with scale.
* @proximity_reverse_range_dis: Driver sets this if the
* proximity range is not
* reversed.
* Note: Typically, the proximity HW value gets larger the
* closer an object gets. By default NVS reverses this by
* subtracting the value from the maximum possible value.
* The driver can disable this feature by setting the
* proximity_reverse_range_dis to true.
* @proximity_binary_en: NVS determines if binary reporting is
* enabled.
* @proximity_binary_hw: NVS determines if HW binary reporting
* is enabled via device tree, or driver
* enables this by setting hw_mask to 1.
* @poll_delay_ms: NVS writes the poll time needed if polling.
* @delay_us: Driver writes the requested sample time.
* @report: NVS writes the report count.
* @cfg: Driver writes the sensor_cfg structure pointer.
* @nvs_data: Driver writes the private pointer for handler.
* @handler: Driver writes the handler pointer.
*/
struct nvs_proximity {
s64 timestamp; /* sample timestamp */
s64 timestamp_report; /* last reported timestamp */
u32 proximity; /* proximity */
u32 hw; /* HW proximity value */
u32 hw_mask; /* HW proximity mask */
u32 hw_thresh_lo; /* HW low threshold value */
u32 hw_thresh_hi; /* HW high threshold value */
bool hw_limit_lo; /* hw < hw_thresh_lo or hw = 0 */
bool hw_limit_hi; /* hw > hw_thresh_hi or hw = hw_mask */
bool thresh_valid_lo; /* valid cfg.thresh_lo */
bool thresh_valid_hi; /* valid cfg.thresh_hi */
bool thresholds_valid; /* both thresholds valid */
bool calibration_en; /* if calibration enabled */
bool dynamic_resolution_dis; /* disable float significance */
bool proximity_reverse_range_dis; /* if proximity range not reversed */
bool proximity_binary_en; /* if binary proximity enabled */
bool proximity_binary_hw; /* if HW binary proximity enabled */
unsigned int poll_delay_ms; /* HW polling delay (ms) */
unsigned int delay_us; /* OS requested sample delay */
unsigned int report; /* report count */
struct sensor_cfg *cfg; /* pointer to sensor configuration */
void *nvs_st; /* NVS state data for NVS handler */
int (*handler)(void *handle, void *buffer, s64 ts);
};
int nvs_proximity_enable(struct nvs_proximity *np);
int nvs_proximity_read(struct nvs_proximity *np);
int nvs_proximity_of_dt(struct nvs_proximity *np, const struct device_node *dn,
const char *dev_name);
void nvs_proximity_threshold_calibrate_lo(struct nvs_proximity *np, int lo);
void nvs_proximity_threshold_calibrate_hi(struct nvs_proximity *np, int hi);
ssize_t nvs_proximity_dbg(struct nvs_proximity *np, char *buf);
#endif /* _NVS_PROXIMITY_H_ */