View Source InputEvent

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Elixir interface to Linux input event devices. Using input_event, you can

  • Find out what keyboards, joysticks, mice, touchscreens, etc. are connected
  • Get information on what kinds of events they can produce
  • Get decoded events sent to you

This library is intended for use with Nerves. If you're running a desktop Linux distribution, this can still work, but you'll likely want to use a higher level API for receiving events.

Usage

InputEvent can be used to monitor /dev/input/event* devices and report decoded data to the parent process. The event reports follow the Linux documentation fairly closely, but it's easiest to understand by example.

Start by looking for the device you want to monitor:

iex> InputEvent.enumerate
[
  {"/dev/input/event0",
   %InputEvent.Info{
     bus: 0,
     input_event_version: "1.0.1",
     name: "FT5406 memory based driver",
     product: 0,
     report_info: [
       ev_abs: [
         abs_x: %{flat: 0, fuzz: 0, max: 800, min: 0, resolution: 0, value: 0},
         abs_y: %{flat: 0, fuzz: 0, max: 480, min: 0, resolution: 0, value: 0},
         abs_mt_slot: %{
           flat: 0,
           fuzz: 0,
           max: 9,
           min: 0,
           resolution: 0,
           value: 0
         },
         abs_mt_position_x: %{
           flat: 0,
           fuzz: 0,
           max: 800,
           min: 0,
           resolution: 0,
           value: 0
         },
         abs_mt_position_y: %{
           flat: 0,
           fuzz: 0,
           max: 480,
           min: 0,
           resolution: 0,
           value: 0
         },
         abs_mt_tracking_id: %{
           flat: 0,
           fuzz: 0,
           max: 65535,
           min: 0,
           resolution: 0,
           value: 0
         }
       ],
       ev_key: [:btn_touch]
     ],
     vendor: 0,
     version: 0
   }}
]

There's a touchscreen at /dev/input/event0, so let's open it:

iex> InputEvent.start_link("/dev/input/event0")
{:ok, #PID<0.197.0>}

Touch the screen to test

iex> flush
{:input_event, "/dev/input/event0",
 [
   {:ev_abs, :abs_mt_tracking_id, 1},
   {:ev_abs, :abs_mt_position_x, 350},
   {:ev_abs, :abs_mt_position_y, 119},
   {:ev_key, :btn_touch, 1},
   {:ev_abs, :abs_x, 350},
   {:ev_abs, :abs_y, 119}
 ]}
{:input_event, "/dev/input/event0",
 [
   {:ev_abs, :abs_mt_position_x, 352},
   {:ev_abs, :abs_mt_position_y, 122},
   {:ev_abs, :abs_x, 352},
   {:ev_abs, :abs_y, 122}
 ]}
{:input_event, "/dev/input/event0",
 [{:ev_abs, :abs_mt_tracking_id, -1}, {:ev_key, :btn_touch, 0}]}
{:input_event, "/dev/input/event0",
 [
   {:ev_abs, :abs_mt_tracking_id, 2},
   {:ev_abs, :abs_mt_position_x, 361},
   {:ev_abs, :abs_mt_position_y, 361},
   {:ev_abs, :abs_mt_slot, 1},
   {:ev_abs, :abs_mt_tracking_id, 3},
   {:ev_abs, :abs_mt_position_x, 425},
   {:ev_abs, :abs_mt_position_y, 139},
   {:ev_key, :btn_touch, 1},
   {:ev_abs, :abs_x, 361},
   {:ev_abs, :abs_y, 361}
 ]}
{:input_event, "/dev/input/event0", [{:ev_abs, :abs_mt_position_y, 142}]}
{:input_event, "/dev/input/event0",
 [
   {:ev_abs, :abs_mt_slot, 0},
   {:ev_abs, :abs_mt_position_y, 363},
   {:ev_abs, :abs_mt_slot, 1},
   {:ev_abs, :abs_mt_position_x, 427},
   {:ev_abs, :abs_mt_position_y, 147},
   {:ev_abs, :abs_y, 363}
 ]}
{:input_event, "/dev/input/event0",
 [{:ev_abs, :abs_mt_position_x, 428}, {:ev_abs, :abs_mt_position_y, 149}]}
{:input_event, "/dev/input/event0",
 [
   {:ev_abs, :abs_mt_slot, 0},
   {:ev_abs, :abs_mt_tracking_id, -1},
   {:ev_abs, :abs_mt_slot, 1},
   {:ev_abs, :abs_mt_tracking_id, -1},
   {:ev_key, :btn_touch, 0}
 ]}
:ok

Examples

Enumerating attached devices can be really helpful in figuring out what kind of messages that you'll be sent. Here are other examples:

Keyboard

  {"/dev/input/event3",
   %InputEvent.Info{
     bus: 3,
     input_event_version: "1.0.1",
     name: "Logitech K520",
     product: 8209,
     report_info: [
       ev_rep: %{delay: 250, period: 33},
       ev_led: [:led_numl, :led_capsl, :led_scrolll, :led_compose, :led_kana],
       ev_msc: [:msc_scan],
       ev_abs: [
         abs_volume: %{
           flat: 0,
           fuzz: 0,
           max: 652,
           min: 1,
           resolution: 0,
           value: 0
         }
       ],
       ev_rel: [:rel_hwheel],
       ev_key: [:key_esc, :key_1, :key_2, :key_3, :key_4, :key_5, :key_6,
        :key_7, :key_8, :key_9, :key_0, :key_minus, :key_equal, :key_backspace,
        :key_tab, :key_q, :key_w, :key_e, :key_r, :key_t, :key_y, :key_u,
        :key_i, :key_o, :key_p, :key_leftbrace, :key_rightbrace, ...]
     ],
     vendor: 1133,
     version: 273
   }}

Events from a keyboard look like:

{:input_event, "/dev/input/event3", [{:ev_key, :key_f, 1}]}
{:input_event, "/dev/input/event3", [{:ev_key, :key_f, 0}]}

In the tuple, {:ev_key, :key_f, 1}, the third element is 0 for key up, 1 for key down, and 2 for key repeat.

Mouse

  {"/dev/input/event2",
   %InputEvent.Info{
     bus: 3,
     input_event_version: "1.0.1",
     name: "Logitech M310",
     product: 4132,
     report_info: [
       ev_msc: [:msc_scan],
       ev_rel: [:rel_x, :rel_y, :rel_hwheel, :rel_wheel],
       ev_key: [:btn_left, :btn_right, :btn_middle, :btn_side, :btn_extra,
        :btn_forward, :btn_back, :btn_task, 280, 281, 282, 283, 284, 285, 286,
        287]
     ],
     vendor: 1133,
     version: 273
   }}

Events from a mouse look like:

{:input_event, "/dev/input/event2", [{:ev_rel, :rel_x, 12}]}
{:input_event, "/dev/input/event2",
 [{:ev_rel, :rel_x, 14}, {:ev_rel, :rel_y, -1}]}

Notice that if there's no movement in an axis that you won't get an update for that axis.

Joystick

  {"/dev/input/event15",
   %InputEvent.Info{
     bus: 3,
     input_event_version: "1.0.1",
     name: "Microsoft X-Box 360 pad",
     product: 654,
     report_info: [
       ev_ff: 'PQXYZ`',
       ev_abs: [
         abs_x: %{
           flat: 128,
           fuzz: 16,
           max: 32767,
           min: -32768,
           resolution: 0,
           value: 0
         },
         abs_y: %{
           flat: 128,
           fuzz: 16,
           max: 32767,
           min: -32768,
           resolution: 0,
           value: 0
         },
         abs_z: %{flat: 0, fuzz: 0, max: 255, min: 0, resolution: 0, value: 0},
         abs_rx: %{
           flat: 128,
           fuzz: 16,
           max: 32767,
           min: -32768,
           resolution: 0,
           value: 0
         },
         abs_ry: %{
           flat: 128,
           fuzz: 16,
           max: 32767,
           min: -32768,
           resolution: 0,
           value: 0
         },
         abs_rz: %{flat: 0, fuzz: 0, max: 255, min: 0, resolution: 0, value: 0},
         abs_hat0x: %{
           flat: 0,
           fuzz: 0,
           max: 1,
           min: -1,
           resolution: 0,
           value: 0
         },
         abs_hat0y: %{
           flat: 0,
           fuzz: 0,
           max: 1,
           min: -1,
           resolution: 0,
           value: 0
         }
       ],
       ev_key: [:btn_a, :btn_b, :btn_x, :btn_y, :btn_tl, :btn_tr, :btn_select,
        :btn_start, :btn_mode, :btn_thumbl, :btn_thumbr]
     ],
     vendor: 1118,
     version: 272
   }}

Power button

  {"/dev/input/event0",
   %InputEvent.Info{
     bus: 25,
     input_event_version: "1.0.1",
     name: "Power Button",
     product: 1,
     report_info: [ev_key: [:key_power]],
     vendor: 0,
     version: 0
   }}

The power button input device works just like a one-button keyboard.

Grab device

Devices can be grabbed to prevent output into other applications.

iex> InputEvent.start_link(path: "/dev/input/event0", grab: true)
{:ok, #PID<0.197.0>}

Permissions

To be able to read from /dev/input/event* you need to add user to the input group:

sudo usermod -a -G input <username>

And restart user session.