199 lines
5.6 KiB
C
199 lines
5.6 KiB
C
// SPDX-License-Identifier: GPL-2.0-or-later
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/*
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* Copyright (C) 2020 Invensense, Inc.
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*/
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#include <linux/kernel.h>
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#include <linux/regmap.h>
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#include <linux/math64.h>
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#include "inv_icm42600.h"
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#include "inv_icm42600_timestamp.h"
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/* internal chip period is 32kHz, 31250ns */
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#define INV_ICM42600_TIMESTAMP_PERIOD 31250
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/* allow a jitter of +/- 2% */
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#define INV_ICM42600_TIMESTAMP_JITTER 2
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/* compute min and max periods accepted */
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#define INV_ICM42600_TIMESTAMP_MIN_PERIOD(_p) \
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(((_p) * (100 - INV_ICM42600_TIMESTAMP_JITTER)) / 100)
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#define INV_ICM42600_TIMESTAMP_MAX_PERIOD(_p) \
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(((_p) * (100 + INV_ICM42600_TIMESTAMP_JITTER)) / 100)
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/* Add a new value inside an accumulator and update the estimate value */
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static void inv_update_acc(struct inv_icm42600_timestamp_acc *acc, uint32_t val)
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{
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uint64_t sum = 0;
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size_t i;
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acc->values[acc->idx++] = val;
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if (acc->idx >= ARRAY_SIZE(acc->values))
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acc->idx = 0;
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/* compute the mean of all stored values, use 0 as empty slot */
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for (i = 0; i < ARRAY_SIZE(acc->values); ++i) {
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if (acc->values[i] == 0)
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break;
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sum += acc->values[i];
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}
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acc->val = div_u64(sum, i);
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}
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void inv_icm42600_timestamp_init(struct inv_icm42600_timestamp *ts,
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uint32_t period)
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{
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/* initial odr for sensor after reset is 1kHz */
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const uint32_t default_period = 1000000;
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/* current multiplier and period values after reset */
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ts->mult = default_period / INV_ICM42600_TIMESTAMP_PERIOD;
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ts->period = default_period;
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/* new set multiplier is the one from chip initialization */
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ts->new_mult = period / INV_ICM42600_TIMESTAMP_PERIOD;
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/* use theoretical value for chip period */
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inv_update_acc(&ts->chip_period, INV_ICM42600_TIMESTAMP_PERIOD);
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}
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int inv_icm42600_timestamp_setup(struct inv_icm42600_state *st)
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{
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unsigned int val;
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/* enable timestamp register */
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val = INV_ICM42600_TMST_CONFIG_TMST_TO_REGS_EN |
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INV_ICM42600_TMST_CONFIG_TMST_EN;
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return regmap_update_bits(st->map, INV_ICM42600_REG_TMST_CONFIG,
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INV_ICM42600_TMST_CONFIG_MASK, val);
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}
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int inv_icm42600_timestamp_update_odr(struct inv_icm42600_timestamp *ts,
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uint32_t period, bool fifo)
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{
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/* when FIFO is on, prevent odr change if one is already pending */
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if (fifo && ts->new_mult != 0)
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return -EAGAIN;
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ts->new_mult = period / INV_ICM42600_TIMESTAMP_PERIOD;
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return 0;
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}
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static bool inv_validate_period(uint32_t period, uint32_t mult)
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{
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const uint32_t chip_period = INV_ICM42600_TIMESTAMP_PERIOD;
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uint32_t period_min, period_max;
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/* check that period is acceptable */
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period_min = INV_ICM42600_TIMESTAMP_MIN_PERIOD(chip_period) * mult;
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period_max = INV_ICM42600_TIMESTAMP_MAX_PERIOD(chip_period) * mult;
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if (period > period_min && period < period_max)
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return true;
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else
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return false;
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}
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static bool inv_update_chip_period(struct inv_icm42600_timestamp *ts,
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uint32_t mult, uint32_t period)
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{
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uint32_t new_chip_period;
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if (!inv_validate_period(period, mult))
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return false;
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/* update chip internal period estimation */
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new_chip_period = period / mult;
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inv_update_acc(&ts->chip_period, new_chip_period);
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ts->period = ts->mult * ts->chip_period.val;
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return true;
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}
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static void inv_align_timestamp_it(struct inv_icm42600_timestamp *ts)
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{
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int64_t delta, jitter;
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int64_t adjust;
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/* delta time between last sample and last interrupt */
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delta = ts->it.lo - ts->timestamp;
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/* adjust timestamp while respecting jitter */
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jitter = div_s64((int64_t)ts->period * INV_ICM42600_TIMESTAMP_JITTER, 100);
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if (delta > jitter)
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adjust = jitter;
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else if (delta < -jitter)
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adjust = -jitter;
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else
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adjust = 0;
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ts->timestamp += adjust;
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}
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void inv_icm42600_timestamp_interrupt(struct inv_icm42600_timestamp *ts,
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uint32_t fifo_period, size_t fifo_nb,
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size_t sensor_nb, int64_t timestamp)
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{
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struct inv_icm42600_timestamp_interval *it;
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int64_t delta, interval;
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const uint32_t fifo_mult = fifo_period / INV_ICM42600_TIMESTAMP_PERIOD;
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uint32_t period = ts->period;
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bool valid = false;
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if (fifo_nb == 0)
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return;
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/* update interrupt timestamp and compute chip and sensor periods */
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it = &ts->it;
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it->lo = it->up;
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it->up = timestamp;
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delta = it->up - it->lo;
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if (it->lo != 0) {
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/* compute period: delta time divided by number of samples */
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period = div_s64(delta, fifo_nb);
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valid = inv_update_chip_period(ts, fifo_mult, period);
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}
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/* no previous data, compute theoritical value from interrupt */
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if (ts->timestamp == 0) {
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/* elapsed time: sensor period * sensor samples number */
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interval = (int64_t)ts->period * (int64_t)sensor_nb;
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ts->timestamp = it->up - interval;
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return;
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}
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/* if interrupt interval is valid, sync with interrupt timestamp */
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if (valid)
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inv_align_timestamp_it(ts);
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}
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void inv_icm42600_timestamp_apply_odr(struct inv_icm42600_timestamp *ts,
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uint32_t fifo_period, size_t fifo_nb,
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unsigned int fifo_no)
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{
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int64_t interval;
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uint32_t fifo_mult;
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if (ts->new_mult == 0)
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return;
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/* update to new multiplier and update period */
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ts->mult = ts->new_mult;
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ts->new_mult = 0;
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ts->period = ts->mult * ts->chip_period.val;
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/*
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* After ODR change the time interval with the previous sample is
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* undertermined (depends when the change occures). So we compute the
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* timestamp from the current interrupt using the new FIFO period, the
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* total number of samples and the current sample numero.
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*/
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if (ts->timestamp != 0) {
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/* compute measured fifo period */
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fifo_mult = fifo_period / INV_ICM42600_TIMESTAMP_PERIOD;
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fifo_period = fifo_mult * ts->chip_period.val;
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/* computes time interval between interrupt and this sample */
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interval = (int64_t)(fifo_nb - fifo_no) * (int64_t)fifo_period;
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ts->timestamp = ts->it.up - interval;
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}
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}
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