Wafer
Wafer is an OTP application that assists with writing drivers for peripherals using I2C, SPI and GPIO pins.
Wafer provides Elixir protocols for interacting with device registers and dealing with GPIO, so that you can use directly connected hardware GPIO pins or GPIO expanders such as the MCP23008 or the CD74HC595 SPI shift register.
Wafer implements the GPIO and Chip protocols for Circuits.GPIO and Circuits.I2C. Implementing it for SPI should also be trivial, I just don't have any SPI devices to test with at the moment.
Some examples of how to use this project:
Working with registers
Wafer provides the very helpful Registers macros which allow you to quickly and easily define your registers for your device:
Here's a very simple example:
defmodule HTS221.Registers do
use Wafer.Registers
defregister(:ctrl_reg1, 0x20, :rw, 1)
defregister(:humidity_out_l, 0x28, :ro, 1)
defregister(:humidity_out_h, 0x29, :ro, 1)
end
defmodule HTS221 do
import HTS221.Registers
use Bitwise
def humidity(conn) do
with {:ok, <<msb>>} <- read_humidity_out_h(conn),
{:ok, <<lsb>} <- read_humidity_out_l(conn),
do: {:ok, msb <<< 8 + lsb}
end
def on?(conn) do
case read_ctrl_reg1(conn) do
{:ok, <<1::integer-size(1), _::bits>>} -> true
_ -> false
end
end
def turn_on(conn), do: write_ctrl_reg1(conn, <<1::integer-size(1), 0::integer-size(7)>>)
def turn_off(conn), do: write_ctrl_reg1(conn, <<0>>)
end
Working with GPIO
Wafer provides a simple way to drive specific GPIO functionality per device.
Here's a super simple "blinky" example:
defmodule WaferBlinky do
@derive [Wafer.GPIO]
defstruct ~w[conn]a
@behaviour Wafer.Conn
alias Wafer.Conn
alias Wafer.GPIO
@type t :: %WaferBlinky{conn: Conn.t()}
@type acquire_options :: [acquire_option]
@type acquire_option :: {:conn, Conn.t()}
@impl Wafer.Conn
def acquire(options) do
with {:ok, conn} <- Keyword.fetch(options, :conn) do
{:ok, %WaferBlinky{conn: conn}}
else
:error -> {:error, "`WaferBlinky.acquire/1` requires the `conn` option."}
{:error, reason} -> {:error, reason}
end
end
def turn_on(conn), do: GPIO.write(conn, 1)
def turn_off(conn), do: GPIO.write(conn, 0)
end
And a simple mix task to drive it:
defmodule Mix.Tasks.Blink do
use Mix.Task
@shortdoc "GPIO LED Blink Example"
alias Wafer.Driver.Circuits.GPIO
def run(_args) do
{:ok, led_pin_21} = GPIO.acquire(pin: 21, direction: :out)
{:ok, conn} = WaferBlinky.acquire(conn: led_pin_21)
Enum.each(1..10, fn _ ->
WaferBlinky.turn_on(conn)
:timer.sleep(500)
WaferBlinky.turn_off(conn)
:timer.sleep(500)
end)
end
end
Running the tests
I've included stub implementations of the parts of Circuits that are
interacted with by this project, so the tests should run and pass on machines
without physical hardware interfaces. If you have a Raspberry Pi with a Pi Sense
Hat connected you can run the tests with the SENSE_HAT_PRESENT=true
environment variable set and it will perform integration tests with two of the
sensors on this device.
Installation
Wafer is available in Hex, the package can be
installed by adding wafer to your list of dependencies in mix.exs:
def deps do
[
{:wafer, "~> 1.1.4"}
]
end
Documentation for the latest release can be found on HexDocs.
Github Mirror
This repository is mirrored on Github from it's primary location on my Forgejo instance. Feel free to raise issues and open PRs on Github.
License
This software is licensed under the terms of the
Apache License 2.0, see the
LICENSE.md file included with this package for the terms.