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zephyr/subsys/emul/emul_bmi160.c

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/*
* Copyright 2020 Google LLC
*
* SPDX-License-Identifier: Apache-2.0
*
* Emulator for the Bosch BMI160 accelerometer / gyro. This supports basic
* init and reading of canned samples. It supports both I2C and SPI buses.
*/
#define DT_DRV_COMPAT bosch_bmi160
#define LOG_LEVEL CONFIG_SPI_LOG_LEVEL
#include <zephyr/logging/log.h>
LOG_MODULE_REGISTER(bosch_bmi160);
#include <zephyr/sys/byteorder.h>
#include <bmi160.h>
#include <zephyr/device.h>
#include <zephyr/drivers/emul.h>
#include <zephyr/drivers/i2c.h>
#include <zephyr/drivers/i2c_emul.h>
#include <zephyr/drivers/spi.h>
#include <zephyr/drivers/spi_emul.h>
/** Run-time data used by the emulator */
struct bmi160_emul_data {
uint8_t pmu_status;
/** Current register to read (address) */
uint32_t cur_reg;
};
/** Static configuration for the emulator */
struct bmi160_emul_cfg {
/** Chip registers */
uint8_t *reg;
union {
/** Unit address (chip select ordinal) of emulator */
uint16_t chipsel;
/** I2C address of emulator */
uint16_t addr;
};
};
/* Names for the PMU components */
static const char *const pmu_name[] = { "acc", "gyr", "mag", "INV" };
static void sample_read(union bmi160_sample *buf)
{
/*
* Use hard-coded scales to get values just above 0, 1, 2 and
* 3, 4, 5. Values are stored in little endianness.
* gyr[x] = 0x0b01 // 3 * 1000000 / BMI160_GYR_SCALE(2000) + 1
* gyr[y] = 0x0eac // 4 * 1000000 / BMI160_GYR_SCALE(2000) + 1
* gyr[z] = 0x1257 // 5 * 1000000 / BMI160_GYR_SCALE(2000) + 1
* acc[x] = 0x0001 // 0 * 1000000 / BMI160_ACC_SCALE(2) + 1
* acc[y] = 0x0689 // 1 * 1000000 / BMI160_ACC_SCALE(2) + 1
* acc[z] = 0x0d11 // 2 * 1000000 / BMI160_ACC_SCALE(2) + 1
*/
static uint8_t raw_data[] = { 0x01, 0x0b, 0xac, 0x0e, 0x57, 0x12,
0x01, 0x00, 0x89, 0x06, 0x11, 0x0d };
LOG_INF("Sample read");
memcpy(buf->raw, raw_data, ARRAY_SIZE(raw_data));
}
static void reg_write(const struct emul *target, int regn, int val)
{
struct bmi160_emul_data *data = target->data;
const struct bmi160_emul_cfg *cfg = target->cfg;
LOG_INF("write %x = %x", regn, val);
cfg->reg[regn] = val;
switch (regn) {
case BMI160_REG_ACC_CONF:
LOG_INF(" * acc conf");
break;
case BMI160_REG_ACC_RANGE:
LOG_INF(" * acc range");
break;
case BMI160_REG_GYR_CONF:
LOG_INF(" * gyr conf");
break;
case BMI160_REG_GYR_RANGE:
LOG_INF(" * gyr range");
break;
case BMI160_REG_CMD:
switch (val) {
case BMI160_CMD_SOFT_RESET:
LOG_INF(" * soft reset");
break;
default:
if ((val & BMI160_CMD_PMU_BIT) == BMI160_CMD_PMU_BIT) {
int which = (val & BMI160_CMD_PMU_MASK) >> BMI160_CMD_PMU_SHIFT;
int shift;
int pmu_val = val & BMI160_CMD_PMU_VAL_MASK;
switch (which) {
case 0:
shift = BMI160_PMU_STATUS_ACC_POS;
break;
case 1:
shift = BMI160_PMU_STATUS_GYR_POS;
break;
case 2:
default:
shift = BMI160_PMU_STATUS_MAG_POS;
break;
}
data->pmu_status &= 3 << shift;
data->pmu_status |= pmu_val << shift;
LOG_INF(" * pmu %s = %x, new status %x", pmu_name[which], pmu_val,
data->pmu_status);
} else {
LOG_INF("Unknown command %x", val);
}
break;
}
break;
default:
LOG_INF("Unknown write %x", regn);
}
}
static int reg_read(const struct emul *target, int regn)
{
struct bmi160_emul_data *data = target->data;
const struct bmi160_emul_cfg *cfg = target->cfg;
int val;
LOG_INF("read %x =", regn);
val = cfg->reg[regn];
switch (regn) {
case BMI160_REG_CHIPID:
LOG_INF(" * get chipid");
break;
case BMI160_REG_PMU_STATUS:
LOG_INF(" * get pmu");
val = data->pmu_status;
break;
case BMI160_REG_STATUS:
LOG_INF(" * status");
val |= BMI160_DATA_READY_BIT_MASK;
break;
case BMI160_REG_ACC_CONF:
LOG_INF(" * acc conf");
break;
case BMI160_REG_GYR_CONF:
LOG_INF(" * gyr conf");
break;
case BMI160_SPI_START:
LOG_INF(" * Bus start");
break;
case BMI160_REG_ACC_RANGE:
LOG_INF(" * acc range");
break;
case BMI160_REG_GYR_RANGE:
LOG_INF(" * gyr range");
break;
default:
LOG_INF("Unknown read %x", regn);
}
LOG_INF(" = %x", val);
return val;
}
#if BMI160_BUS_SPI
static int bmi160_emul_io_spi(const struct emul *target, const struct spi_config *config,
const struct spi_buf_set *tx_bufs, const struct spi_buf_set *rx_bufs)
{
struct bmi160_emul_data *data;
const struct spi_buf *tx, *txd, *rxd;
unsigned int regn, val;
int count;
ARG_UNUSED(config);
data = target->data;
__ASSERT_NO_MSG(tx_bufs || rx_bufs);
__ASSERT_NO_MSG(!tx_bufs || !rx_bufs || tx_bufs->count == rx_bufs->count);
count = tx_bufs ? tx_bufs->count : rx_bufs->count;
switch (count) {
case 2:
tx = tx_bufs->buffers;
txd = &tx_bufs->buffers[1];
rxd = rx_bufs ? &rx_bufs->buffers[1] : NULL;
switch (tx->len) {
case 1:
regn = *(uint8_t *)tx->buf;
if ((regn & BMI160_REG_READ) && rxd == NULL) {
LOG_ERR("Cannot read without rxd");
return -EPERM;
}
switch (txd->len) {
case 1:
if (regn & BMI160_REG_READ) {
regn &= BMI160_REG_MASK;
val = reg_read(target, regn);
*(uint8_t *)rxd->buf = val;
} else {
val = *(uint8_t *)txd->buf;
reg_write(target, regn, val);
}
break;
case BMI160_SAMPLE_SIZE:
if (regn & BMI160_REG_READ) {
sample_read(rxd->buf);
} else {
LOG_INF("Unknown sample write");
}
break;
default:
LOG_INF("Unknown A txd->len %d", txd->len);
break;
}
break;
default:
LOG_INF("Unknown tx->len %d", tx->len);
break;
}
break;
default:
LOG_INF("Unknown tx_bufs->count %d", count);
break;
}
return 0;
}
#endif
#if BMI160_BUS_I2C
static int bmi160_emul_transfer_i2c(const struct emul *target, struct i2c_msg *msgs, int num_msgs,
int addr)
{
struct bmi160_emul_data *data;
unsigned int val;
data = target->data;
__ASSERT_NO_MSG(msgs && num_msgs);
i2c_dump_msgs("emul", msgs, num_msgs, addr);
switch (num_msgs) {
case 2:
if (msgs->flags & I2C_MSG_READ) {
LOG_ERR("Unexpected read");
return -EIO;
}
if (msgs->len != 1) {
LOG_ERR("Unexpected msg0 length %d", msgs->len);
return -EIO;
}
data->cur_reg = msgs->buf[0];
/* Now process the 'read' part of the message */
msgs++;
if (msgs->flags & I2C_MSG_READ) {
switch (msgs->len) {
case 1:
val = reg_read(target, data->cur_reg);
msgs->buf[0] = val;
break;
case BMI160_SAMPLE_SIZE:
sample_read((void *)msgs->buf);
break;
default:
LOG_ERR("Unexpected msg1 length %d", msgs->len);
return -EIO;
}
} else {
if (msgs->len != 1) {
LOG_ERR("Unexpected msg1 length %d", msgs->len);
}
reg_write(target, data->cur_reg, msgs->buf[0]);
}
break;
default:
LOG_ERR("Invalid number of messages: %d", num_msgs);
return -EIO;
}
return 0;
}
#endif
/* Device instantiation */
#if BMI160_BUS_SPI
static struct spi_emul_api bmi160_emul_api_spi = {
.io = bmi160_emul_io_spi,
};
#endif
#if BMI160_BUS_I2C
static struct i2c_emul_api bmi160_emul_api_i2c = {
.transfer = bmi160_emul_transfer_i2c,
};
#endif
static int emul_bosch_bmi160_init(const struct emul *target, const struct device *parent)
{
const struct bmi160_emul_cfg *cfg = target->cfg;
struct bmi160_emul_data *data = target->data;
uint8_t *reg = cfg->reg;
ARG_UNUSED(parent);
data->pmu_status = 0;
reg[BMI160_REG_CHIPID] = BMI160_CHIP_ID;
return 0;
}
#define BMI160_EMUL_DATA(n) \
static uint8_t bmi160_emul_reg_##n[BMI160_REG_COUNT]; \
static struct bmi160_emul_data bmi160_emul_data_##n;
#define BMI160_EMUL_DEFINE(n, api) \
EMUL_DT_INST_DEFINE(n, emul_bosch_bmi160_init, &bmi160_emul_data_##n, \
&bmi160_emul_cfg_##n, &api)
/* Instantiation macros used when a device is on a SPI bus */
#define BMI160_EMUL_SPI(n) \
BMI160_EMUL_DATA(n) \
static const struct bmi160_emul_cfg bmi160_emul_cfg_##n = { \
.reg = bmi160_emul_reg_##n, \
.chipsel = \
DT_INST_REG_ADDR(n) }; \
BMI160_EMUL_DEFINE(n, bmi160_emul_api_spi)
#define BMI160_EMUL_I2C(n) \
BMI160_EMUL_DATA(n) \
static const struct bmi160_emul_cfg bmi160_emul_cfg_##n = { \
.reg = bmi160_emul_reg_##n, \
.addr = DT_INST_REG_ADDR(n) }; \
BMI160_EMUL_DEFINE(n, bmi160_emul_api_i2c)
/*
* Main instantiation macro. Use of COND_CODE_1() selects the right
* bus-specific macro at preprocessor time.
*/
#define BMI160_EMUL(n) \
COND_CODE_1(DT_INST_ON_BUS(n, spi), (BMI160_EMUL_SPI(n)), (BMI160_EMUL_I2C(n)))
DT_INST_FOREACH_STATUS_OKAY(BMI160_EMUL)
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