mirror of https://gitee.com/openkylin/linux.git
iio: imu: inv_mpu6050: new timestamp mechanism
Check validity of interrupt timestamps by computing time between 2 interrupts. If it matches the chip frequency modulo 4%, it is used as the data timestamp and also for estimating the chip frequency measured from the system. Otherwise timestamp is computed using the estimated chip frequency. Signed-off-by: Jean-Baptiste Maneyrol <jmaneyrol@invensense.com> Signed-off-by: Jonathan Cameron <Jonathan.Cameron@huawei.com>
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17f0361936
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@ -295,6 +295,13 @@ static int inv_mpu6050_init_config(struct iio_dev *indio_dev)
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memcpy(&st->chip_config, hw_info[st->chip_type].config,
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sizeof(struct inv_mpu6050_chip_config));
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/*
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* Internal chip period is 1ms (1kHz).
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* Let's use at the beginning the theorical value before measuring
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* with interrupt timestamps.
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*/
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st->chip_period = NSEC_PER_MSEC;
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return inv_mpu6050_set_power_itg(st, false);
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error_power_off:
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@ -125,6 +125,9 @@ struct inv_mpu6050_hw {
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* @map regmap pointer.
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* @irq interrupt number.
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* @irq_mask the int_pin_cfg mask to configure interrupt type.
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* @chip_period: chip internal period estimation (~1kHz).
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* @it_timestamp: timestamp from previous interrupt.
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* @data_timestamp: timestamp for next data sample.
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*/
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struct inv_mpu6050_state {
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struct mutex lock;
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@ -142,6 +145,9 @@ struct inv_mpu6050_state {
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int irq;
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u8 irq_mask;
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unsigned skip_samples;
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s64 chip_period;
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s64 it_timestamp;
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s64 data_timestamp;
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};
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/*register and associated bit definition*/
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@ -223,6 +229,8 @@ struct inv_mpu6050_state {
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#define INV_MPU6050_LATCH_INT_EN 0x20
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#define INV_MPU6050_BIT_BYPASS_EN 0x2
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/* Allowed timestamp period jitter in percent */
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#define INV_MPU6050_TS_PERIOD_JITTER 4
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/* init parameters */
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#define INV_MPU6050_INIT_FIFO_RATE 50
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@ -20,15 +20,93 @@
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#include <linux/irq.h>
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#include <linux/interrupt.h>
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#include <linux/poll.h>
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#include <linux/math64.h>
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#include <asm/unaligned.h>
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#include "inv_mpu_iio.h"
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/**
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* inv_mpu6050_update_period() - Update chip internal period estimation
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*
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* @st: driver state
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* @timestamp: the interrupt timestamp
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* @nb: number of data set in the fifo
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*
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* This function uses interrupt timestamps to estimate the chip period and
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* to choose the data timestamp to come.
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*/
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static void inv_mpu6050_update_period(struct inv_mpu6050_state *st,
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s64 timestamp, size_t nb)
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{
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/* Period boundaries for accepting timestamp */
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const s64 period_min =
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(NSEC_PER_MSEC * (100 - INV_MPU6050_TS_PERIOD_JITTER)) / 100;
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const s64 period_max =
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(NSEC_PER_MSEC * (100 + INV_MPU6050_TS_PERIOD_JITTER)) / 100;
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const s32 divider = INV_MPU6050_FREQ_DIVIDER(st);
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s64 delta, interval;
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bool use_it_timestamp = false;
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if (st->it_timestamp == 0) {
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/* not initialized, forced to use it_timestamp */
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use_it_timestamp = true;
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} else if (nb == 1) {
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/*
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* Validate the use of it timestamp by checking if interrupt
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* has been delayed.
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* nb > 1 means interrupt was delayed for more than 1 sample,
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* so it's obviously not good.
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* Compute the chip period between 2 interrupts for validating.
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*/
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delta = div_s64(timestamp - st->it_timestamp, divider);
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if (delta > period_min && delta < period_max) {
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/* update chip period and use it timestamp */
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st->chip_period = (st->chip_period + delta) / 2;
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use_it_timestamp = true;
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}
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}
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if (use_it_timestamp) {
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/*
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* Manage case of multiple samples in the fifo (nb > 1):
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* compute timestamp corresponding to the first sample using
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* estimated chip period.
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*/
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interval = (nb - 1) * st->chip_period * divider;
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st->data_timestamp = timestamp - interval;
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}
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/* save it timestamp */
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st->it_timestamp = timestamp;
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}
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/**
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* inv_mpu6050_get_timestamp() - Return the current data timestamp
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*
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* @st: driver state
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* @return: current data timestamp
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*
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* This function returns the current data timestamp and prepares for next one.
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*/
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static s64 inv_mpu6050_get_timestamp(struct inv_mpu6050_state *st)
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{
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s64 ts;
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/* return current data timestamp and increment */
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ts = st->data_timestamp;
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st->data_timestamp += st->chip_period * INV_MPU6050_FREQ_DIVIDER(st);
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return ts;
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}
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int inv_reset_fifo(struct iio_dev *indio_dev)
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{
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int result;
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u8 d;
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struct inv_mpu6050_state *st = iio_priv(indio_dev);
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/* reset it timestamp validation */
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st->it_timestamp = 0;
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/* disable interrupt */
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result = regmap_write(st->map, st->reg->int_enable, 0);
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if (result) {
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@ -97,7 +175,7 @@ irqreturn_t inv_mpu6050_read_fifo(int irq, void *p)
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int result;
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u8 data[INV_MPU6050_OUTPUT_DATA_SIZE];
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u16 fifo_count;
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s64 timestamp = pf->timestamp;
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s64 timestamp;
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int int_status;
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size_t i, nb;
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@ -140,6 +218,7 @@ irqreturn_t inv_mpu6050_read_fifo(int irq, void *p)
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fifo_count = get_unaligned_be16(&data[0]);
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/* compute and process all complete datum */
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nb = fifo_count / bytes_per_datum;
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inv_mpu6050_update_period(st, pf->timestamp, nb);
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for (i = 0; i < nb; ++i) {
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result = regmap_bulk_read(st->map, st->reg->fifo_r_w,
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data, bytes_per_datum);
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@ -150,6 +229,7 @@ irqreturn_t inv_mpu6050_read_fifo(int irq, void *p)
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st->skip_samples--;
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continue;
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}
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timestamp = inv_mpu6050_get_timestamp(st);
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iio_push_to_buffers_with_timestamp(indio_dev, data, timestamp);
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}
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