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SubjectRe: [RFC v1 08/10] iio: light: vcnl4000: add roadtest
On Fri, 11 Mar 2022 17:24:43 +0100
Vincent Whitchurch <vincent.whitchurch@axis.com> wrote:

> Add roadtests for the vcnl4000 driver, testing several of the driver's
> features including buffer and event handling. Since it's the first IIO
> roadtest testing the non-sysfs parts, some support code for using the
> IIO ABI is included.
>
> The different variants supported by the driver are in separate tests and
> models since no two variants have fully identical register interfaces.
> This duplicates some of the test code, but it:
>
> - Avoids the tests duplicating the same multi-variant logic as the
> driver, reducing the risk for both the test and the driver being
> wrong.
>
> - Allows each variant's test and model to be individually understood
> and modified looking at only one specific datasheet, making it easier
> to extend tests and implement new features in the driver.
>
> During development of these tests, two oddities were noticed in the
> driver's handling of VCNL4040, but the tests simply assume that the
> current driver knows what it's doing (although we may want to fix the
> first point later):
>
> - The driver reads an invalid/undefined register on the VCNL4040 when
> attempting to distinguish between that one and VCNL4200.
>
> - The driver uses a lux/step unit which differs from the datasheet (but
> which is specified in an application note).
>
> Signed-off-by: Vincent Whitchurch <vincent.whitchurch@axis.com>

Hi Vincent,

Very interesting bit of work. My current approach for similar testing
is to write a qemu model for the hardware, but that currently
requires carefully crafted tests. Most of the time I'm only doing
that to verify refactoring of existing drivers.

One thing that makes me nervous here is the python element though
as I've not written significant python in about 20 years.
That is going to be a burden for kernel developers and maintainers...
Nothing quite like badly written tests to make for a mess in the long run
and I suspect my python for example would be very very badly written :)
Cut and paste will of course get us a long way...

I dream of a world where every driver is testable by people with out hardware
but I fear it may be a while yet. Hopefully this will get us a little
closer!

I more or less follow what is going on here (good docs btw in the earlier
patch definitely helped).

So far I'm thoroughly in favour of road test subject to actually being
able to review the tests or getting sufficient support to do so.
It's a 'how to scale it' question really...

Jonathan

> ---
> .../roadtest/roadtest/tests/iio/iio.py | 112 +++++++
> .../roadtest/roadtest/tests/iio/light/config | 1 +
> .../roadtest/tests/iio/light/test_vcnl4000.py | 132 ++++++++
> .../roadtest/tests/iio/light/test_vcnl4010.py | 282 ++++++++++++++++++
> .../roadtest/tests/iio/light/test_vcnl4040.py | 104 +++++++
> .../roadtest/tests/iio/light/test_vcnl4200.py | 96 ++++++
> 6 files changed, 727 insertions(+)
> create mode 100644 tools/testing/roadtest/roadtest/tests/iio/iio.py
> create mode 100644 tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4000.py
> create mode 100644 tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4010.py
> create mode 100644 tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4040.py
> create mode 100644 tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4200.py
>
> diff --git a/tools/testing/roadtest/roadtest/tests/iio/iio.py b/tools/testing/roadtest/roadtest/tests/iio/iio.py
> new file mode 100644
> index 000000000000..ea57b28ea9d3
> --- /dev/null
> +++ b/tools/testing/roadtest/roadtest/tests/iio/iio.py
> @@ -0,0 +1,112 @@
> +# SPDX-License-Identifier: GPL-2.0-only
> +# Copyright Axis Communications AB
> +
> +import contextlib
> +import enum
> +import fcntl
> +import struct
> +from dataclasses import dataclass, field
> +from typing import Any
> +
> +IIO_GET_EVENT_FD_IOCTL = 0x80046990
> +IIO_BUFFER_GET_FD_IOCTL = 0xC0046991
> +
> +
> +class IIOChanType(enum.IntEnum):
> + IIO_VOLTAGE = 0
> + IIO_CURRENT = 1
> + IIO_POWER = 2
> + IIO_ACCEL = 3
> + IIO_ANGL_VEL = 4
> + IIO_MAGN = 5
> + IIO_LIGHT = 6
> + IIO_INTENSITY = 7
> + IIO_PROXIMITY = 8
> + IIO_TEMP = 9
> + IIO_INCLI = 10
> + IIO_ROT = 11
> + IIO_ANGL = 12
> + IIO_TIMESTAMP = 13
> + IIO_CAPACITANCE = 14
> + IIO_ALTVOLTAGE = 15
> + IIO_CCT = 16
> + IIO_PRESSURE = 17
> + IIO_HUMIDITYRELATIVE = 18
> + IIO_ACTIVITY = 19
> + IIO_STEPS = 20
> + IIO_ENERGY = 21
> + IIO_DISTANCE = 22
> + IIO_VELOCITY = 23
> + IIO_CONCENTRATION = 24
> + IIO_RESISTANCE = 25
> + IIO_PH = 26
> + IIO_UVINDEX = 27
> + IIO_ELECTRICALCONDUCTIVITY = 28
> + IIO_COUNT = 29
> + IIO_INDEX = 30
> + IIO_GRAVITY = 31
> + IIO_POSITIONRELATIVE = 32
> + IIO_PHASE = 33
> + IIO_MASSCONCENTRATION = 34
> +
> +
> +@dataclass
> +class IIOEvent:
> + id: int
> + timestamp: int
> + type: IIOChanType = field(init=False)
> +
> + def __post_init__(self) -> None:
> + self.type = IIOChanType((self.id >> 32) & 0xFF)
> +
> +
> +class IIOEventMonitor(contextlib.AbstractContextManager):
> + def __init__(self, devname: str) -> None:
> + self.devname = devname
> +
> + def __enter__(self) -> "IIOEventMonitor":
> + self.file = open(self.devname, "rb")
> +
> + s = struct.Struct("L")
> + buf = bytearray(s.size)
> + fcntl.ioctl(self.file.fileno(), IIO_GET_EVENT_FD_IOCTL, buf)
> + eventfd = s.unpack(buf)[0]
> + self.eventf = open(eventfd, "rb")
> +
> + return self
> +
> + def read(self) -> IIOEvent:
> + s = struct.Struct("Qq")
> + buf = self.eventf.read(s.size)
> + return IIOEvent(*s.unpack(buf))
> +
> + def __exit__(self, *_: Any) -> None:
> + self.eventf.close()
> + self.file.close()
> +
> +
> +class IIOBuffer(contextlib.AbstractContextManager):
> + def __init__(self, devname: str, bufidx: int) -> None:
> + self.devname = devname
> + self.bufidx = bufidx
> +
> + def __enter__(self) -> "IIOBuffer":
> + self.file = open(self.devname, "rb")
> +
> + s = struct.Struct("L")
> + buf = bytearray(s.size)
> + s.pack_into(buf, 0, self.bufidx)
> + fcntl.ioctl(self.file.fileno(), IIO_BUFFER_GET_FD_IOCTL, buf)
> + eventfd = s.unpack(buf)[0]
> + self.eventf = open(eventfd, "rb")
> +
> + return self
> +
> + def read(self, spec: str) -> tuple:
> + s = struct.Struct(spec)
> + buf = self.eventf.read(s.size)
> + return s.unpack(buf)
> +
> + def __exit__(self, *_: Any) -> None:
> + self.eventf.close()
> + self.file.close()
> diff --git a/tools/testing/roadtest/roadtest/tests/iio/light/config b/tools/testing/roadtest/roadtest/tests/iio/light/config
> index b9753f2d0728..3bd4125cbb6b 100644
> --- a/tools/testing/roadtest/roadtest/tests/iio/light/config
> +++ b/tools/testing/roadtest/roadtest/tests/iio/light/config
> @@ -1 +1,2 @@
> CONFIG_OPT3001=m
> +CONFIG_VCNL4000=m
> diff --git a/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4000.py b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4000.py
> new file mode 100644
> index 000000000000..16a5bed18b7e
> --- /dev/null
> +++ b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4000.py
> @@ -0,0 +1,132 @@
> +# SPDX-License-Identifier: GPL-2.0-only
> +# Copyright Axis Communications AB
> +
> +import errno
> +import logging
> +from typing import Any, Final
> +
> +from roadtest.backend.i2c import SMBusModel
> +from roadtest.core.devicetree import DtFragment, DtVar
> +from roadtest.core.hardware import Hardware
> +from roadtest.core.modules import insmod, rmmod
> +from roadtest.core.suite import UMLTestCase
> +from roadtest.core.sysfs import I2CDriver, read_float, read_int, read_str
> +
> +logger = logging.getLogger(__name__)
> +
> +REG_COMMAND: Final = 0x80
> +REG_PRODUCT_ID_REVISION: Final = 0x81
> +REG_IR_LED_CURRENT: Final = 0x83
> +REG_ALS_PARAM: Final = 0x84
> +REG_ALS_RESULT_HIGH: Final = 0x85
> +REG_ALS_RESULT_LOW: Final = 0x86
> +REG_PROX_RESULT_HIGH: Final = 0x87
> +REG_PROX_RESULT_LOW: Final = 0x88
> +REG_PROX_SIGNAL_FREQ: Final = 0x89
> +
> +REG_COMMAND_ALS_DATA_RDY: Final = 1 << 6
> +REG_COMMAND_PROX_DATA_RDY: Final = 1 << 5
> +
> +
> +class VCNL4000(SMBusModel):
> + def __init__(self, **kwargs: Any) -> None:
> + super().__init__(regbytes=1, **kwargs)
> + self.regs = {
> + REG_COMMAND: 0b_1000_0000,
> + REG_PRODUCT_ID_REVISION: 0x11,
> + # Register "without function in current version"
> + 0x82: 0x00,
> + REG_IR_LED_CURRENT: 0x00,
> + REG_ALS_PARAM: 0x00,
> + REG_ALS_RESULT_HIGH: 0x00,
> + REG_ALS_RESULT_LOW: 0x00,
> + REG_PROX_RESULT_HIGH: 0x00,
> + REG_PROX_RESULT_LOW: 0x00,
> + REG_PROX_RESULT_LOW: 0x00,
> + }
> +
> + def reg_read(self, addr: int) -> int:
> + val = self.regs[addr]
> +
> + if addr in (REG_ALS_RESULT_HIGH, REG_ALS_RESULT_LOW):
> + self.regs[REG_COMMAND] &= ~REG_COMMAND_ALS_DATA_RDY
> + if addr in (REG_PROX_RESULT_HIGH, REG_PROX_RESULT_LOW):
> + self.regs[REG_COMMAND] &= ~REG_COMMAND_PROX_DATA_RDY
> +
> + return val
> +
> + def reg_write(self, addr: int, val: int) -> None:
> + assert addr in self.regs
> +
> + if addr == REG_COMMAND:
> + rw = 0b_0001_1000
> + val = (self.regs[addr] & ~rw) | (val & rw)
> +
> + self.regs[addr] = val
> +
> + def inject(self, addr: int, val: int, mask: int = ~0) -> None:
> + old = self.regs[addr] & ~mask
> + new = old | (val & mask)
> + self.regs[addr] = new
> +
> +
> +class TestVCNL4000(UMLTestCase):
> + dts = DtFragment(
> + src="""
> +&i2c {
> + light-sensor@$addr$ {
> + compatible = "vishay,vcnl4000";
> + reg = <0x$addr$>;
> + };
> +};
> + """,
> + variables={
> + "addr": DtVar.I2C_ADDR,
> + },
> + )
> +
> + @classmethod
> + def setUpClass(cls) -> None:
> + insmod("vcnl4000")
> +
> + @classmethod
> + def tearDownClass(cls) -> None:
> + rmmod("vcnl4000")
> +
> + def setUp(self) -> None:
> + self.driver = I2CDriver("vcnl4000")
> + self.hw = Hardware("i2c")
> + self.hw.load_model(VCNL4000)
> +
> + def tearDown(self) -> None:
> + self.hw.close()
> +
> + def test_lux(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + scale = read_float(dev.path / "iio:device0/in_illuminance_scale")
> + self.assertEqual(scale, 0.25)
> +
> + data = [
> + (0x00, 0x00),
> + (0x12, 0x34),
> + (0xFF, 0xFF),
> + ]
> + luxfile = dev.path / "iio:device0/in_illuminance_raw"
> + for high, low in data:
> + self.hw.inject(REG_ALS_RESULT_HIGH, high)
> + self.hw.inject(REG_ALS_RESULT_LOW, low)
> + self.hw.inject(
> + REG_COMMAND,
> + val=REG_COMMAND_ALS_DATA_RDY,
> + mask=REG_COMMAND_ALS_DATA_RDY,
> + )
> +
> + self.assertEqual(read_int(luxfile), high << 8 | low)
> +
> + def test_lux_timeout(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + # self.hw.set_never_ready(True)
> + with self.assertRaises(OSError) as cm:
> + luxfile = dev.path / "iio:device0/in_illuminance_raw"
> + read_str(luxfile)
> + self.assertEqual(cm.exception.errno, errno.EIO)
> diff --git a/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4010.py b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4010.py
> new file mode 100644
> index 000000000000..929db970405f
> --- /dev/null
> +++ b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4010.py
> @@ -0,0 +1,282 @@
> +# SPDX-License-Identifier: GPL-2.0-only
> +# Copyright Axis Communications AB
> +
> +import errno
> +import logging
> +from pathlib import Path
> +from typing import Any, Final, Optional
> +
> +from roadtest.backend.i2c import SMBusModel
> +from roadtest.core.devicetree import DtFragment, DtVar
> +from roadtest.core.hardware import Hardware
> +from roadtest.core.modules import insmod, rmmod
> +from roadtest.core.suite import UMLTestCase
> +from roadtest.core.sysfs import (
> + I2CDriver,
> + read_float,
> + read_int,
> + read_str,
> + write_int,
> + write_str,
> +)
> +from roadtest.tests.iio import iio
> +
> +logger = logging.getLogger(__name__)
> +
> +REG_COMMAND: Final = 0x80
> +REG_PRODUCT_ID_REVISION: Final = 0x81
> +REG_PROXIMITY_RATE: Final = 0x82
> +REG_IR_LED_CURRENT: Final = 0x83
> +REG_ALS_PARAM: Final = 0x84
> +REG_ALS_RESULT_HIGH: Final = 0x85
> +REG_ALS_RESULT_LOW: Final = 0x86
> +REG_PROX_RESULT_HIGH: Final = 0x87
> +REG_PROX_RESULT_LOW: Final = 0x88
> +REG_INTERRUPT_CONTROL: Final = 0x89
> +REG_LOW_THRESHOLD_HIGH: Final = 0x8A
> +REG_LOW_THRESHOLD_LOW: Final = 0x8B
> +REG_HIGH_THRESHOLD_HIGH: Final = 0x8C
> +REG_HIGH_THRESHOLD_LOW: Final = 0x8D
> +REG_INTERRUPT_STATUS: Final = 0x8E
> +
> +REG_COMMAND_ALS_DATA_RDY: Final = 1 << 6
> +REG_COMMAND_PROX_DATA_RDY: Final = 1 << 5
> +
> +
> +class VCNL4010(SMBusModel):
> + def __init__(self, int: Optional[int] = None, **kwargs: Any) -> None:
> + super().__init__(regbytes=1, **kwargs)
> + self.int = int
> + self._set_int(False)
> + self.regs = {
> + REG_COMMAND: 0b_1000_0000,
> + REG_PRODUCT_ID_REVISION: 0x21,
> + REG_PROXIMITY_RATE: 0x00,
> + REG_IR_LED_CURRENT: 0x00,
> + REG_ALS_PARAM: 0x00,
> + REG_ALS_RESULT_HIGH: 0x00,
> + REG_ALS_RESULT_LOW: 0x00,
> + REG_PROX_RESULT_HIGH: 0x00,
> + REG_PROX_RESULT_LOW: 0x00,
> + REG_INTERRUPT_CONTROL: 0x00,
> + REG_LOW_THRESHOLD_HIGH: 0x00,
> + REG_LOW_THRESHOLD_LOW: 0x00,
> + REG_HIGH_THRESHOLD_HIGH: 0x00,
> + REG_HIGH_THRESHOLD_LOW: 0x00,
> + REG_INTERRUPT_STATUS: 0x00,
> + }
> +
> + def _set_int(self, active: int) -> None:
> + # Active-low
> + self.backend.gpio.set(self.int, not active)
> +
> + def _update_irq(self) -> None:
> + selftimed_en = self.regs[REG_COMMAND] & (1 << 0)
> + prox_en = self.regs[REG_COMMAND] & (1 << 1)
> + prox_data_rdy = self.regs[REG_COMMAND] & REG_COMMAND_PROX_DATA_RDY
> + int_prox_ready_en = self.regs[REG_INTERRUPT_CONTROL] & (1 << 3)
> +
> + logger.debug(
> + f"{selftimed_en=:x} {prox_en=:x} {prox_data_rdy=:x} {int_prox_ready_en=:x}"
> + )
> +
> + if selftimed_en and prox_en and prox_data_rdy and int_prox_ready_en:
> + self.regs[REG_INTERRUPT_STATUS] |= 1 << 3
> +
> + low_threshold = (
> + self.regs[REG_LOW_THRESHOLD_HIGH] << 8 | self.regs[REG_LOW_THRESHOLD_LOW]
> + )
> + high_threshold = (
> + self.regs[REG_HIGH_THRESHOLD_HIGH] << 8 | self.regs[REG_HIGH_THRESHOLD_LOW]
> + )
> + proximity = (
> + self.regs[REG_PROX_RESULT_HIGH] << 8 | self.regs[REG_PROX_RESULT_LOW]
> + )
> + int_thres_en = self.regs[REG_INTERRUPT_CONTROL] & (1 << 1)
> +
> + logger.debug(
> + f"{low_threshold=:x} {high_threshold=:x} {proximity=:x} {int_thres_en=:x}"
> + )
> +
> + if int_thres_en:
> + if proximity < low_threshold:
> + logger.debug("LOW")
> + self.regs[REG_INTERRUPT_STATUS] |= 1 << 1
> + if proximity > high_threshold:
> + logger.debug("HIGH")
> + self.regs[REG_INTERRUPT_STATUS] |= 1 << 0
> +
> + self._set_int(self.regs[REG_INTERRUPT_STATUS])
> +
> + def reg_read(self, addr: int) -> int:
> + val = self.regs[addr]
> +
> + if addr in (REG_ALS_RESULT_HIGH, REG_ALS_RESULT_LOW):
> + self.regs[REG_COMMAND] &= ~REG_COMMAND_ALS_DATA_RDY
> + if addr in (REG_PROX_RESULT_HIGH, REG_PROX_RESULT_LOW):
> + self.regs[REG_COMMAND] &= ~REG_COMMAND_PROX_DATA_RDY
> +
> + return val
> +
> + def reg_write(self, addr: int, val: int) -> None:
> + assert addr in self.regs
> +
> + if addr == REG_COMMAND:
> + rw = 0b_0001_1111
> + val = (self.regs[addr] & ~rw) | (val & rw)
> + elif addr == REG_INTERRUPT_STATUS:
> + val = self.regs[addr] & ~(val & 0xF)
> +
> + self.regs[addr] = val
> + self._update_irq()
> +
> + def inject(self, addr: int, val: int, mask: int = ~0) -> None:
> + old = self.regs[addr] & ~mask
> + new = old | (val & mask)
> + self.regs[addr] = new
> + self._update_irq()
> +
> + def set_bit(self, addr: int, val: int) -> None:
> + self.inject(addr, val, val)
> +
> +
> +class TestVCNL4010(UMLTestCase):
> + dts = DtFragment(
> + src="""
> +#include <dt-bindings/interrupt-controller/irq.h>
> +
> +&i2c {
> + light-sensor@$addr$ {
> + compatible = "vishay,vcnl4020";
> + reg = <0x$addr$>;
> + interrupt-parent = <&gpio>;
> + interrupts = <$gpio$ IRQ_TYPE_EDGE_FALLING>;
> + };
> +};
> + """,
> + variables={
> + "addr": DtVar.I2C_ADDR,
> + "gpio": DtVar.GPIO_PIN,
> + },
> + )
> +
> + @classmethod
> + def setUpClass(cls) -> None:
> + insmod("vcnl4000")
> +
> + @classmethod
> + def tearDownClass(cls) -> None:
> + rmmod("vcnl4000")
> +
> + def setUp(self) -> None:
> + self.driver = I2CDriver("vcnl4000")
> + self.hw = Hardware("i2c")
> + self.hw.load_model(VCNL4010, int=self.dts["gpio"])
> +
> + def tearDown(self) -> None:
> + self.hw.close()
> +
> + def test_lux(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> +
> + scale = read_float(dev.path / "iio:device0/in_illuminance_scale")
> + self.assertEqual(scale, 0.25)
> +
> + data = [
> + (0x00, 0x00),
> + (0x12, 0x34),
> + (0xFF, 0xFF),
> + ]
> + luxfile = dev.path / "iio:device0/in_illuminance_raw"
> + for high, low in data:
> + self.hw.inject(REG_ALS_RESULT_HIGH, high)
> + self.hw.inject(REG_ALS_RESULT_LOW, low)
> + self.hw.set_bit(REG_COMMAND, REG_COMMAND_ALS_DATA_RDY)
> +
> + self.assertEqual(read_int(luxfile), high << 8 | low)
> +
> + def test_lux_timeout(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + with self.assertRaises(OSError) as cm:
> + luxfile = dev.path / "iio:device0/in_illuminance_raw"
> + read_str(luxfile)
> + self.assertEqual(cm.exception.errno, errno.EIO)
> +
> + def test_proximity_thresh_rising(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + high_thresh = (
> + dev.path / "iio:device0/events/in_proximity_thresh_rising_value"
> + )
> + write_int(high_thresh, 0x1234)
> +
> + mock = self.hw.update_mock()
> + mock.assert_last_reg_write(self, REG_HIGH_THRESHOLD_HIGH, 0x12)
> + mock.assert_last_reg_write(self, REG_HIGH_THRESHOLD_LOW, 0x34)
> + mock.reset_mock()
> +
> + self.assertEqual(read_int(high_thresh), 0x1234)
> +
> + with iio.IIOEventMonitor("/dev/iio:device0") as mon:
> + en = dev.path / "iio:device0/events/in_proximity_thresh_either_en"
> + write_int(en, 1)
> +
> + self.hw.inject(REG_PROX_RESULT_HIGH, 0x12)
> + self.hw.inject(REG_PROX_RESULT_LOW, 0x35)
> + self.hw.set_bit(REG_COMMAND, REG_COMMAND_PROX_DATA_RDY)
> + self.hw.kick()
> +
> + self.assertEqual(read_int(en), 1)
> +
> + event = mon.read()
> + self.assertEqual(event.type, iio.IIOChanType.IIO_PROXIMITY)
> +
> + def test_proximity_thresh_falling(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + high_thresh = (
> + dev.path / "iio:device0/events/in_proximity_thresh_falling_value"
> + )
> + write_int(high_thresh, 0x0ABC)
> +
> + mock = self.hw.update_mock()
> + mock.assert_last_reg_write(self, REG_LOW_THRESHOLD_HIGH, 0x0A)
> + mock.assert_last_reg_write(self, REG_LOW_THRESHOLD_LOW, 0xBC)
> + mock.reset_mock()
> +
> + self.assertEqual(read_int(high_thresh), 0x0ABC)
> +
> + with iio.IIOEventMonitor("/dev/iio:device0") as mon:
> + write_int(
> + dev.path / "iio:device0/events/in_proximity_thresh_either_en", 1
> + )
> +
> + event = mon.read()
> + self.assertEqual(event.type, iio.IIOChanType.IIO_PROXIMITY)
> +
> + def test_proximity_triggered(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + data = [
> + (0x00, 0x00, 0),
> + (0x00, 0x01, 1),
> + (0xF0, 0x02, 0xF002),
> + (0xFF, 0xFF, 0xFFFF),
> + ]
> +
> + trigger = read_str(Path("/sys/bus/iio/devices/trigger0/name"))
> +
> + write_int(dev.path / "iio:device0/buffer0/in_proximity_en", 1)
> + write_str(dev.path / "iio:device0/trigger/current_trigger", trigger)
> +
> + with iio.IIOBuffer("/dev/iio:device0", bufidx=0) as buffer:
> + write_int(dev.path / "iio:device0/buffer0/length", 128)
> + write_int(dev.path / "iio:device0/buffer0/enable", 1)
> +
> + for low, high, expected in data:
> + self.hw.inject(REG_PROX_RESULT_HIGH, low)
> + self.hw.inject(REG_PROX_RESULT_LOW, high)
> + self.hw.set_bit(REG_COMMAND, REG_COMMAND_PROX_DATA_RDY)
> + self.hw.kick()
> +
> + scanline = buffer.read("H")
> +
> + val = scanline[0]
> + self.assertEqual(val, expected)
> diff --git a/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4040.py b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4040.py
> new file mode 100644
> index 000000000000..f2aa2cb9f3d5
> --- /dev/null
> +++ b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4040.py
> @@ -0,0 +1,104 @@
> +# SPDX-License-Identifier: GPL-2.0-only
> +# Copyright Axis Communications AB
> +
> +import logging
> +from typing import Any
> +
> +from roadtest.backend.i2c import SMBusModel
> +from roadtest.core.devicetree import DtFragment, DtVar
> +from roadtest.core.hardware import Hardware
> +from roadtest.core.modules import insmod, rmmod
> +from roadtest.core.suite import UMLTestCase
> +from roadtest.core.sysfs import I2CDriver, read_float, read_int
> +
> +logger = logging.getLogger(__name__)
> +
> +
> +class VCNL4040(SMBusModel):
> + def __init__(self, **kwargs: Any) -> None:
> + super().__init__(regbytes=2, byteorder="little", **kwargs)
> + self.regs = {
> + 0x00: 0x0101,
> + 0x01: 0x0000,
> + 0x02: 0x0000,
> + 0x03: 0x0001,
> + 0x04: 0x0000,
> + 0x05: 0x0000,
> + 0x06: 0x0000,
> + 0x07: 0x0000,
> + 0x08: 0x0000,
> + 0x09: 0x0000,
> + 0x0A: 0x0000,
> + 0x0A: 0x0000,
> + 0x0B: 0x0000,
> + 0x0C: 0x0186,
> + # The driver reads this register which is undefined for
> + # VCNL4040. Perhaps the driver should be fixed instead
> + # of having this here?
> + 0x0E: 0x0000,
> + }
> +
> + def reg_read(self, addr: int) -> int:
> + return self.regs[addr]
> +
> + def reg_write(self, addr: int, val: int) -> None:
> + assert addr in self.regs
> + self.regs[addr] = val
> +
> +
> +class TestVCNL4040(UMLTestCase):
> + dts = DtFragment(
> + src="""
> +&i2c {
> + light-sensor@$addr$ {
> + compatible = "vishay,vcnl4040";
> + reg = <0x$addr$>;
> + };
> +};
> + """,
> + variables={
> + "addr": DtVar.I2C_ADDR,
> + },
> + )
> +
> + @classmethod
> + def setUpClass(cls) -> None:
> + insmod("vcnl4000")
> +
> + @classmethod
> + def tearDownClass(cls) -> None:
> + rmmod("vcnl4000")
> +
> + def setUp(self) -> None:
> + self.driver = I2CDriver("vcnl4000")
> + self.hw = Hardware("i2c")
> + self.hw.load_model(VCNL4040)
> +
> + def tearDown(self) -> None:
> + self.hw.close()
> +
> + def test_illuminance_scale(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + scalefile = dev.path / "iio:device0/in_illuminance_scale"
> + # The datasheet says 0.10 lux/step, but the driver follows
> + # the application note "Designing the VCNL4040 Into an
> + # Application" which claims a different value.
> + self.assertEqual(read_float(scalefile), 0.12)
> +
> + def test_illuminance(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + luxfile = dev.path / "iio:device0/in_illuminance_raw"
> +
> + data = [0x0000, 0x1234, 0xFFFF]
> + for regval in data:
> + self.hw.reg_write(0x09, regval)
> + self.assertEqual(read_int(luxfile), regval)
> +
> + def test_proximity(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + rawfile = dev.path / "iio:device0/in_proximity_raw"
> +
> + data = [0x0000, 0x1234, 0xFFFF]
> + for regval in data:
> + self.hw.reg_write(0x08, regval)
> + self.assertEqual(read_int(rawfile), regval)
> diff --git a/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4200.py b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4200.py
> new file mode 100644
> index 000000000000..d1cf819e563e
> --- /dev/null
> +++ b/tools/testing/roadtest/roadtest/tests/iio/light/test_vcnl4200.py
> @@ -0,0 +1,96 @@
> +# SPDX-License-Identifier: GPL-2.0-only
> +# Copyright Axis Communications AB
> +
> +import logging
> +from typing import Any
> +
> +from roadtest.backend.i2c import SMBusModel
> +from roadtest.core.devicetree import DtFragment, DtVar
> +from roadtest.core.hardware import Hardware
> +from roadtest.core.modules import insmod, rmmod
> +from roadtest.core.suite import UMLTestCase
> +from roadtest.core.sysfs import I2CDriver, read_float, read_int
> +
> +logger = logging.getLogger(__name__)
> +
> +
> +class VCNL4200(SMBusModel):
> + def __init__(self, **kwargs: Any) -> None:
> + super().__init__(regbytes=2, byteorder="little", **kwargs)
> + self.regs = {
> + 0x00: 0x0101,
> + 0x01: 0x0000,
> + 0x02: 0x0000,
> + 0x03: 0x0001,
> + 0x04: 0x0000,
> + 0x05: 0x0000,
> + 0x06: 0x0000,
> + 0x07: 0x0000,
> + 0x08: 0x0000,
> + 0x09: 0x0000,
> + 0x0A: 0x0000,
> + 0x0D: 0x0000,
> + 0x0E: 0x1058,
> + }
> +
> + def reg_read(self, addr: int) -> int:
> + return self.regs[addr]
> +
> + def reg_write(self, addr: int, val: int) -> None:
> + assert addr in self.regs
> + self.regs[addr] = val
> +
> +
> +class TestVCNL4200(UMLTestCase):
> + dts = DtFragment(
> + src="""
> +&i2c {
> + light-sensor@$addr$ {
> + compatible = "vishay,vcnl4200";
> + reg = <0x$addr$>;
> + };
> +};
> + """,
> + variables={
> + "addr": DtVar.I2C_ADDR,
> + },
> + )
> +
> + @classmethod
> + def setUpClass(cls) -> None:
> + insmod("vcnl4000")
> +
> + @classmethod
> + def tearDownClass(cls) -> None:
> + rmmod("vcnl4000")
> +
> + def setUp(self) -> None:
> + self.driver = I2CDriver("vcnl4000")
> + self.hw = Hardware("i2c")
> + self.hw.load_model(VCNL4200)
> +
> + def tearDown(self) -> None:
> + self.hw.close()
> +
> + def test_illuminance_scale(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + scalefile = dev.path / "iio:device0/in_illuminance_scale"
> + self.assertEqual(read_float(scalefile), 0.024)
> +
> + def test_illuminance(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + luxfile = dev.path / "iio:device0/in_illuminance_raw"
> +
> + data = [0x0000, 0x1234, 0xFFFF]
> + for regval in data:
> + self.hw.reg_write(0x09, regval)
> + self.assertEqual(read_int(luxfile), regval)
> +
> + def test_proximity(self) -> None:
> + with self.driver.bind(self.dts["addr"]) as dev:
> + rawfile = dev.path / "iio:device0/in_proximity_raw"
> +
> + data = [0x0000, 0x1234, 0xFFFF]
> + for regval in data:
> + self.hw.reg_write(0x08, regval)
> + self.assertEqual(read_int(rawfile), regval)

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