Luup Lua extensions
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− | This reads a block of data from the socket. You must have called intercept previously so the data is passed | + | This reads a block of data from the socket. You must have called intercept previously so the data is passed. |
=== I/O data === | === I/O data === |
Revision as of 12:26, 11 August 2009
In addition to the [Lua] commands described in the [Lua reference manual], you can also reference in your Lua code variables and functions from modules which the Luup engine provides as follows:
Module: luup
These are general purpose functions and variables. Call them by using the luup. module, such as:
luup.log('Now running version: ' .. luup.version)
variable: version, version_branch, version_major, version_minor
version contains the version of the luup engine, such as "1.0.843", as a string. The version consists of 3 numbers separated by a period: the branch, the major version, and the minor version. To make it easier to compare against a minimum acceptable version, version_branch, version_major and version_minor return each component as a number. You can put a comparison in the startup function in your Luup plugin and return false if the minimum version isn't met. The user will then see that the Luup device's startup check failed:
if( version_branch~=1 or version_major~=0 or version_minor<843 ) then luup.log("I need version 1.0.843 minimum to run") return false end
variable: longitude
Contains the longitude as a number, as found on the location tab in the setup UI.
variable: latitude
Contains the latitude as a number, as found on the location tab in the setup UI.
variable: timezone
Contains the timezone as a number, as found on the location tab in the setup UI.
variable: city
Contains the city as a string, as found on the location tab in the setup UI.
variable: devices
Contains all the devices in the system as a table indexed by the device number. The members are: room_num (number), device_type (string), category_num (number), device_num_parent (number), ip (string), mac (string), id (string), description (string), udn (string). See also: Lua Device Structure. Example to log device #5's IP addess and it's internal ID:
luup.log('Device #5 ip: ' .. luup.devices[5].ip .. ' id: ' .. luup.devices[5].id)
room_num: This is the number of the room the device is in.
device_type: This is a number representing the type of device. See: Luup Device Types Categories for a list.
category_num: This is a category for the device. See: Luup Device Types Categories
device_num_parent: This is the number of the parent device. See: Lua Device Structure for details.
ip: If this device is IP based, this is the IP address.
mac: If this device is IP based, this is the MAC address.
id: If this device has an internal ID that is specific to the device, it is contained here. For example, for Z-Wave devices this is the Node ID, and for Insteon device it is the Insteon ID.
description: This is the text description for the device as supplied by the user in the web ui.
udn: This is the UDN for the UPnP device.
This code will log all the attributes from all the devices:
for k,v in pairs(lug_device) do for k2,v2 in v lu_log("Device #" .. k .. ":" .. k2 .. "=" .. "v2") end end
variable: rooms
Contains all the rooms as a table of strings indexed by the room number. Example:
luup.log('Room #1 is called: ' .. luup.rooms[1])
variable: scenes
Contains all the scenes in the system as a table indexed by the device number. The members are: room_num (number), description(string)
variable: remotes
Contains all the remotes in the system as a table indexed by the remote id. The members are: remote_file (string), room_num (number), description(string)
function: log
parameters: what_to_log (string), log_level (optional, number)
return: nothing
Writes what_to_log to the log, /var/log/cmh/LuaUPnP.log, with the given log_level, which is 50 by default. See: Luup_Loglevels
function: call_delay
parameters: function_name (string), seconds (number), data (string)
returns: result (number)
The function 'function_name', which must be passed as a string, will be called in 'seconds' seconds, and will be past the string 'data'. The function returns 0 if successful. See: Luup_Declarations#timed_function_callback for the names and syntax of the parameters that will be passed to function_name. function_name will only be called once and you must call call_delay again if you want it called again, or use call_timer instead.
function: call_timer
parameters: function_name (string), type (number), time (string), days (string), data (string)
returns: result (number)
The function 'function_name', which must be passed as a string, will be called when the timer is triggered, and will be past the string 'data'. The function returns 0 if successful. See: Luup_Declarations#timed_function_callback for the names and syntax of the parameters that will be passed to function_name.
Type is 1=Interval timer, 2=Day of week timer, 3=Day of month timer, 4=Absolute timer. For an interval timer, days is not used, and Time should be a number of seconds, minutes, or hours using an optional 'h' or 'm' suffix. Example: 30=call in 30 seconds, 5m=call in 5 minutes, 2h=call in 2 hours. For a day of week timer, Days is a comma separated list with the days of the week where 1=Monday and 7=Sunday. Time is the time of day in hh:mm:ss format. Time can also include an 'r' at the end for Sunrise or a 't' for Sunset and the time is relative to sunrise/sunset. For example: Days="3,5" Time="20:30:00" means your function will be called on the next Wed or Fri at 8:30pm. Days="1,7" Time="-3:00:00r" means your function will be called on the next Monday or Sunday 3 hours before sunrise. Day of month works the same way except Days is a comma separated list of days of the month, such as "15,20,30". For an absolute timer, Days is not used, and Time should be in the format: "yyyy-mm-dd hh:mm:ss"
Data can be a string passed back to the function. The function should be declared so it takes a single argument, which is this data.
function refreshCache(stuff) .... end function startup() -- -- Setup an interval-based timer to call refreshCache after 30 minutes. -- Note that if you want it to "recur" then you need to call this function again -- at the end of the refreshCache() implementation. -- lu_CallFunctionTimer("refreshCache", 1, "30m", "", "SomeStuff") end
function: is_ready
parameters: device (string or number)
returns: ready (boolean)
Checks if device, which, if it's a string, is interpreted as a udn, and if it's a number, is the device number, is ready and has successfully completed the startup sequence. If so, ready is true. If your device shouldn't process incoming data until the startup sequence is finished, you may want to add a check to the incoming function handler that ignores any data if is_ready(lul_device) isn't true.
function: call_action
parameters: service (string), action (string), arguments (table), device (string or number)
returns: error (number), error_msg (string), job (number), arguments (table)
Invokes the UPnP service + action, passing in the arguments (table of string->string pairs) to the device, which, if it's a string, is interpreted as a udn, and if it's a number, is the device number. If the invocation could not be made, only error will be returned with a value of -1. Otherwise, all 4 values are returned. error is 0 if the UPnP device reported the action was successful. arguments is a table of string->string pairs with the return arguments from the action. If the action is handled asynchronously by a Luup job, then the job number will be returned as a positive integer.
Example to dim device #5 to 50%:
local lul_arguments = {} lul_arguments["newLoadlevelTarget"]=50 lul_resultcode,lul_resultstring,lul_job,lul_returnarguments = luup.call_action("urn:upnp-org:serviceId:Dimming1","SetLoadLevelTarget",lul_arguments,5)
function: variable_set
parameters: service (string), variable (string), value (string), device (string or number)
returns: nothing
The UPnP service+variable will be set to value for device, which if it's a string, is interpreted as a udn, and if it's a number, as a device id. If there are events or notifications tied to the variable they will be fired.
function: variable_get
parameters: service (string), variable (string), device (string or number)
returns: value (string), time (number)
If the service+variable or device does not exist, it returns nothing. Otherwise it returns the value of the UPnP service+variable and the time when the variable was last modified, as a unix time stamp (number of seconds since 1/1/1970). You can assign just the value to a variable, as follows:
local value = luup.variable_get("urn:upnp-org:serviceId:Dimming1","LoadLevelTarget",5) luup.log("Dim level for device #5 is: " .. value)
function: register_handler
parameters: function_name (string), request_name (string)
returns: nothing
When a certain URL is requested from a web browser or other HTTP get, function_name will be called and whatever string it returns will be returned.
See the WAP mobile phone plugin as an example:
luup.register_handler("lug_WapRequest","wap") function lug_WapRequest(lul_request,lul_parameters,lul_outputformat)
local lul_html = "<head>\n" ..
"<title>Main</title>\n" ..
"</head>\n" ..
"<body>\n" ..
"Choose a room:
\n"
end
The request is made with the URL: data_request?id=lr_[the registered name] on port 49451. So: http://192.168.1.1:49451/data_request?id=lr_wap will return the web page defined in the function lug_WapRequest in the example above.
function: variable_watch
parameters: function_name (string), service (string), variable (string or nill), device (string or number)
returns: nothing
Whenever the UPnP variable is changed for the specified device, which if a string is interpreted as a udn and if a number as a device id, function_name will be called. See Luup_Declarations#watch_callback for the values that will be passed to function_name. If variable is nill, function_name will be called whenever any variable in the service is changed.
function: devices_by_service
parameters:
returns:
function: device_supports_service
parameters:
returns:
function: set_failure
parameters: value (boolean), device (string or number)
returns:
Luup maintains a 'failure' flag for every device to indicate if it is not functioning. You can set the flag to true if the device is failing. If device is a string it is interpreted as a udn, if it's a number, as a device id.
Module: luup.chdev
Contains functions for a parent to synchronize its child devices. Whenever a device has multiple end-points, the devices are represented in a parent/child fashion where the parent device is responsible for reporting what child devices it has and giving each one a unique id. For example in the sample Luup_Somfy_Walkthrough there is a parent device, which is the interface module that controls up to 16 blinds, and up to 16 child devices, one for each blind. As shown in that sample, the parent calls start, then enumerates each child device with append, and finally calls sync. You will need to pass the same value for device to append and sync that you passed to start.
function: start
parameters: device (string or number)
returns: ptr (binary object)
Tells Luup you will start enumerating the children of device. If device is a string it is interpreted as a udn, if it's a number, as a device id. The return value is a binary object which you cannot do anything with in Lua, but you do pass it to the append and sync functions.
function: append
parameters: device (string or number), ptr (binary object), id (string), description (string), device_type (string), device_filename (string), implementation_filename (string), parameters (string), embedded (boolean)
returns: nothing
Enumerates one child of device. If device is a string it is interpreted as a udn, if it's a number, as a device id. Pass in the ptr which you received from the start function. Give each child a unique id so you can keep track of which is which. You can optionally provide a description which the user sees in the user interface. device_type is the UPnP device type, such as urn:schemas-upnp-org:device:BinaryLight:1. If device_filename is specified, that is the name of the xml file with the UPnP device specification. The deviceType from the filename will override any device_type you set manually. If the device_file contains the implementation file for this child device you do not need to specify it in implementation_filename. Otherwise, if there is a Luup implementation for this child device and it's not being handled by the parent device, you can specify it in implementation_filename. If embedded is true, the 'embedded' flag is set for the device which generally means that the parent and all the children will be displayed as one compound device, or group, rather than as separate devices which you can put in their own rooms.
The parameters are upnp service+variables you want set when the device is created. You can specify multiple variables by separating them with a line feed (\n) and use a , and = to separate service, variable and value, like this: service,variable=value \n service...
function: sync
parameters: device (string or number), ptr (binary object),
returns: nothing
If device is a string it is interpreted as a udn, if it's a number, as a device id. Pass in the ptr which you received from the start function. Tells the Luup engine you have finished enumerating the child devices. If the child devices have changed in anyway, the new device tree will be written to the configuration file and the Luup engine is reset.
module: io
function: open
parameters: device (string or number), ip (string) port (number),
returns: nothing
If 'device' is a string it is interpreted as a UDN; if it's a number, as a device ID. This opens a socket on 'port' to 'ip' and stores the handle to the socket in 'device'. The opening of a socket can take time depending on the network, and a Luup function should return quickly whenever possible because each top-level device's Lua implementation runs in a single thread. So the actual opening of the socket occurs asynchronously and this function returns nothing. You will know that the socket opening failed if your subsequent call to write fails.
Generally you do not need to call the open function because the socket is usually started automatically when the Luup engine starts. This is because the user typically either (a) associates a device with the destination io device, such as selecting an RS232 port for an alarm panel, where the RS232 is proxied by a socket, or (b) because the configuration settings for the device already include an IP address and port.
function: write
parameters: data (string), device (string or number)
returns: result (boolean)
In Lua a string can contain binary data, so data may be a binary block. If 'device' is a string it is interpreted as a UDN; if it's a number, as a device ID. This sends data on the socket that was opened automatically or with the open function above, and associated to 'device'. If the socket is not already open, write will wait up to 5 seconds for the socket before it returns an error. Result is 'true' if the data was sent successfully, and is 'false' or nill if an error occurred.
function: intercept
parameters: device (string or number)
returns: nothing
Normally when data comes in on a socket (I/O Port), the block of data is first passed to any pending jobs that are running for the device and are marked as 'waiting for data'. If there are none, or if none of the jobs' incoming data handlers report that they consumed (i.e. processed) the data, then the block of data is passed to the general 'incoming' function handler for the device. If you want to bypass this normal mechanism and read data directly from the socket, call intercept first to tell Luup you want to read incoming data with the read function. This is generally used during the initialization or startup sequences for devices. For example, you may need to send some data (a), receive some response (b), send some more data (c), receive another response (d), etc. In this case you would call 'intercept' first, then send a, then call read and confirm you got b, then call intercept again, then send c, then read d, and so on.
You can call the read function without calling intercept and any incoming data will be returned by that function after it's called. The reason why you generally must call intercept is because normally you want to send some data and get a response. If you write the code like this send(data) data=read() then it's possible the response will arrive in the brief moment between the execution of send() and read(), and therefore get sent to the incoming data handler for the device. Intercept tells Luup to buffer any incoming data until the next read, bypassing the normal incoming data handler. So intercept() send(data) data=read() ensures that read will always get the response. If the device you're communicating with sends unsolicited data then there's the risk that the data you read is not the response you're looking for. If so, you can manually pass the response packet to the incoming data handler.
- TBD: Add a function to do this**
function: read
parameters: timeout (number), device (string or number)
returns: data (string)
This reads a block of data from the socket. You must have called intercept previously so the data is passed.
I/O data
lu_iop_intercept_incoming
lu_iop_open
lu_iop_recv_block
lu_iop_send
Job Handling
lu_job_set
lu_job_get