defmodule Grizzly do
@moduledoc """
Send commands to Z-Wave devices
Grizzly provides the `send_command` function as the way to send a command to
Z-Wave devices.
The `send_command` function takes the node id that you are trying to send a
command to, the command name, and optionally command arguments and command
options.
A basic command that has no options or arguments looks like this:
```elixir
Grizzly.send_command(node_id, :switch_binary_get)
```
A command with command arguments:
```elixir
Grizzly.send_command(node_id, :switch_binary_set, value: :off)
```
Also, a command can have options.
```elixir
Grizzly.send_command(node_id, :switch_binary_get, [], timeout: 10_000, retries: 5)
```
Some possible return values from `send_command` are:
1. `{:ok, Grizzly.Report.t()}` - the command was sent and the Z-Wave device
responded with a report. See `Grizzly.Report` for more information.
1. `{:error, :including}` - current the Z-Wave controller is adding or
removing a device and commands cannot be processed right now
1. `{:error, :firmware_updating}` - current the Z-Wave controller is updating firmware and commands cannot be processed right now
1. `{:error, reason}` - there was some other reason for an error, two
common ones are: `:nack_response`
For a more detailed explanation of the responses from a `send_command` call
see the typedoc for `Grizzly.send_command_response()`.
# Events from Z-Wave
Events generating from a Z-Wave device, for example a motion detected event,
can be handled via the `Grizzly.subscribe_command/1` and
`Grizzly.subscribe_commands/1` functions. This will allow you to subscribe
to specific commands. When the command is received from the Z-Wave network
it will placed in a `Grizzly.Report` and set to the subscribing process. The
node that generated the report can be accessed with the `:node_id` field in
the report.
```elixir
iex> Grizzly.subscribe_command(:battery_report)
# sometime latter
iex> flush
{:grizzly, :event, %Grizzly.Report{command: %Grizzly.ZWave.Command{name: :battery_report}}}
```
"""
alias Grizzly.{Connection, Inclusions, FirmwareUpdates, Report, VersionReports, VirtualDevices}
alias Grizzly.Commands.Table
alias Grizzly.UnsolicitedServer.Messages
alias Grizzly.ZWave
require Logger
import Grizzly.VersionReports, only: [is_extra_command: 1]
@typedoc """
The response from sending a Z-Wave command
When everything is okay the response will be `{:ok, Grizzly.Report{}}`. For
documentation about a report see `Grizzly.Report` module.
When there are errors the response will be in the pattern of
`{:error, reason}`.
Three reasons that Grizzly supports for all commands are `:nack_response`,
`:update_firmware`, and `:including`.
In you receive the reason for the error to be `:including` that means the
controller is in an inclusion state and your command will be dropped if we
tried to send it. So we won't allow sending a Z-Wave command during an
inclusion. It's best to wait and try again once your application is done
trying to include.
### Nack response
A `:nack_response` normally means that the Z-Wave node that you were trying
to send a command to is unreachable and did not receive your command at all.
This could mean that the Z-Wave network is overloaded and you should reissue
the command, the device is too far from the controller, or the device is no
longer part of the Z-Wave network.
Grizzly by default will try a command 3 times before sending returning a
`:nack_response`. This is configurable via the `:retries` command option in
the `Grizzly.send_command/4` function. This is useful if you are going to
have a known spike in Z-Wave traffic.
### Queue full
When send commands to a device that sleeps (normally these are sensor type of
devices) and the sleeping device is not awake these commands get queued up to
be sent once the device wakes up and tells the Z-Wave network that it is awake.
However, there is only a limited amount of commands that can be queued at once.
When sending a command to a device when the queue is full you will receive the
`{:error, :queue_full}` return from `Grizzly.send_command/4`. The reason this
is an error is because the device will never receive the command that you
tried to send.
"""
@type send_command_response() ::
{:ok, Report.t()}
| {:error, :including | :updating_firmware | :nack_response | :queue_full | any()}
@type seq_number() :: non_neg_integer()
@type node_id() :: non_neg_integer()
@typedoc """
A custom handler for the command.
See `Grizzly.CommandHandler` behaviour for more documentation.
"""
@type handler() :: module() | {module(), args :: any()}
@type command_opt() ::
{:timeout, non_neg_integer()}
| {:retries, non_neg_integer()}
| {:handler, handler()}
| {:transmission_stats, boolean()}
@type command :: atom()
@doc """
Guard for checking if device is a virtual device or not
"""
defguard is_virtual_device(device_id) when is_tuple(device_id)
@doc """
Check to if the device id is a virtual device or a regular Z-Wave devices
"""
@spec virtual_device?(:gateway | ZWave.node_id() | VirtualDevices.id()) :: boolean()
def virtual_device?(device_id) do
is_virtual_device(device_id)
end
@doc """
Send a command to the node via the node id or to Z/IP Gateway
To talk to your controller directly you can pass `:gateway` as the node id.
This is helpful because your controller might not always be the same node id
on any given network. This ensures that not matter node id your controller is
you will still be able to query it and make it perform Z-Wave functions. There
are many Z-Wave functions a controller do. There are helper functions for
these functions in `Grizzly.Network` and `Grizzly.Node`.
"""
@spec send_command(
ZWave.node_id() | :gateway | VirtualDevices.id(),
command(),
args :: list(),
[command_opt()]
) ::
send_command_response()
def send_command(node_id, command_name, args \\ [], opts \\ [])
def send_command(node_id, command_name, args, _opts) when is_virtual_device(node_id) do
with {command_module, _default_opts} <- Table.lookup(command_name),
{:ok, command} <- command_module.new(args) do
VirtualDevices.send_command(node_id, command)
end
end
def send_command(
:gateway,
:version_command_class_get,
[command_class: command_class],
_opts
)
when is_extra_command(command_class) do
{:ok, version_report} = VersionReports.version_report_for(command_class)
{:ok, %Report{command: version_report, node_id: :gateway, status: :complete, type: :command}}
end
def send_command(node_id, command_name, args, opts) do
:ok = maybe_log_warning(command_name)
send_command_no_warn(node_id, command_name, args, opts)
end
# This is only to be used by Grizzly as it migrates into the higher
# level helper modules, for example Grizzly.SwitchBinary.
@doc false
def send_command_no_warn(node_id, command_name, args, opts) do
# always open a connection. If the connection is already opened this
# will not establish a new connection
including? = Inclusions.inclusion_running?()
updating_firmware? = FirmwareUpdates.firmware_update_running?()
with false <- including? or updating_firmware?,
{command_module, default_opts} <- Table.lookup(command_name),
{:ok, command} <- command_module.new(args),
{:ok, _} <- Connection.open(node_id) do
Connection.send_command(node_id, command, Keyword.merge(default_opts, opts))
else
true ->
reason = if including?, do: :including, else: :updating_firmware
{:error, reason}
{:error, _} = error ->
error
end
end
@doc """
Send a raw binary to the Z-Wave node
This function does not block and expects the sending process to handle the
lifecycle of the command being sent. This maximizes control but minimizes
safety and puts things such as timeouts, retries, and response handling in
the hand of the calling process.
When sending the binary ensure the binary is the encoded
`Grizzly.ZWave.Commands.ZIPPacket`.
```elixir
seq_no = 0x01
{:ok, my_command} = Grizzly.ZWave.Commands.SwitchBinaryGet.new()
{:ok, packet} = Grizzly.ZWave.Commands.ZIPPacket.with_zwave_command(my_command, seq_no)
binary = Grizzly.ZWave.to_binary(packet)
Grizzly.send_binary(node_id, binary)
```
This is helpful when you need very fine grade control of the Z/IP Packet or if
you not expecting a response from a Z-Wave network to handle the back and
forth between your application and the Z-Wave network. Also, this can be useful
for debugging purposes.
First check if `send_command/4` will provide the functionality that is needed
before using this function.
After sending a binary packet the calling process will receive messages in
the form of:
```elixir
{:grizzly, :binary_response, binary}
```
"""
@spec send_binary(ZWave.node_id(), binary()) :: :ok | {:error, :including | :firmware_updating}
def send_binary(node_id, binary) do
including? = Inclusions.inclusion_running?()
updating_firmware? = FirmwareUpdates.firmware_update_running?()
case {including?, updating_firmware?} do
{true, _} ->
{:error, :including}
{_, true} ->
{:error, :firmware_updating}
_can_send ->
{:ok, _} = Connection.open(node_id, mode: :binary)
Connection.send_binary(node_id, binary)
end
end
@doc """
Subscribe to a command event from a Z-Wave device
"""
@spec subscribe_command(command()) :: :ok
def subscribe_command(command_name) do
Messages.subscribe(command_name)
end
@doc """
Subscribe to many events from a Z-Wave device
"""
@spec subscribe_commands([command()]) :: :ok
def subscribe_commands(command_names) do
Enum.each(command_names, &subscribe_command/1)
end
@doc """
Unsubscribe to an event
"""
@spec unsubscribe_command(command()) :: :ok
def unsubscribe_command(command_name) do
Messages.unsubscribe(command_name)
end
@doc """
List the support commands
"""
@spec list_commands() :: [atom()]
def list_commands() do
Enum.map(Table.dump(), fn {command, _} -> command end)
end
@doc """
List the command for a particular command class
"""
@spec commands_for_command_class(atom()) :: [atom()]
def commands_for_command_class(command_class_name) do
Table.dump()
|> Enum.filter(fn {_command, {command_module, _}} ->
{:ok, command} = command_module.new([])
command.command_class == command_class_name
end)
|> Enum.map(fn {command, _} -> command end)
end
defp maybe_log_warning(command_name) do
deprecated_list = [
:switch_binary_get,
:switch_binary_set
]
if command_name in deprecated_list do
new_module = get_new_module(command_name)
Logger.warn("""
Calling Grizzly.send_command/4 for command #{inspect(command_name)} is deprecated.
Please upgrade to using #{inspect(new_module)} to send this command.
""")
end
:ok
end
defp get_new_module(:switch_binary_get), do: Grizzly.SwitchBinary
defp get_new_module(:switch_binary_set), do: Grizzly.SwitchBinary
end