hpio-0.8.0.10: Monads for GPIO in Haskell

Copyright(c) 2017 Quixoftic LLC
LicenseBSD3
MaintainerDrew Hess <dhess-src@quixoftic.com>
Stabilityexperimental
Portabilitynon-portable
Safe HaskellSafe
LanguageHaskell2010

System.GPIO.Linux.Sysfs.Util

Contents

Description

Useful low-level Linux sysfs functions.

Synopsis

Paths and file names

sysfsPath :: FilePath Source #

The base path to Linux's sysfs GPIO filesystem.

>>> sysfsPath
"/sys/class/gpio"

exportFileName :: FilePath Source #

The name of the control file used to export GPIO pins via sysfs.

>>> exportFileName
"/sys/class/gpio/export"

unexportFileName :: FilePath Source #

The name of the control file used to "unexport" GPIO pins via sysfs.

>>> unexportFileName
"/sys/class/gpio/unexport"

pinDirName :: Pin -> FilePath Source #

Exporting a GPIO pin via sysfs creates a control directory corresponding to that pin. pinDirName gives the name of that directory for a given Pin.

>>> pinDirName (Pin 16)
"/sys/class/gpio/gpio16"

pinActiveLowFileName :: Pin -> FilePath Source #

The name of the attribute file used to read and write the pin's active_low value.

>>> pinActiveLowFileName (Pin 16)
"/sys/class/gpio/gpio16/active_low"

pinDirectionFileName :: Pin -> FilePath Source #

Pins whose direction can be controlled via sysfs provide a direction attribute file. pinDirectionFileName gives the name of that file for a given Pin. Note that some pins' direction cannot be set. In these cases, the file named by this function does not actually exist.

>>> pinDirectionFileName (Pin 16)
"/sys/class/gpio/gpio16/direction"

pinEdgeFileName :: Pin -> FilePath Source #

Pins that can be configured as interrupt-generating inputs provide an edge attribute file. pinEdgeFileName gives the name of that file for a given Pin. Note that some pins' edge configuration cannot be set. In these cases, the file named by this function does not actually exist.

>>> pinEdgeFileName (Pin 16)
"/sys/class/gpio/gpio16/edge"

pinValueFileName :: Pin -> FilePath Source #

The name of the attribute file used to read and write the pin's logical signal value.

>>> pinValueFileName (Pin 16)
"/sys/class/gpio/gpio16/value"

Convert Haskell types to/from their sysfs representation

A note on newlines: a Linux GPIO pin's attributes (i.e., the sysfs files representing a pin's state) are read and written as ByteStrings. When reading their contents, the attribute files always return their (ASCII-encoded) value followed by a newline character (\n). When writing their contents, the attribute files will accept their (ASCII-encoded) new value either with or without a trailing newline character. For consistency (and for the sake of isomorphic conversions back-and-forth), these functions always use a trailing newline when encoding the ASCII value from the Haskell value.

pinDirectionToBS :: PinDirection -> ByteString Source #

Convert a PinDirection value to the corresponding ByteString value expected by a pin's direction attribute in the sysfs GPIO filesystem.

>>> pinDirectionToBS In
"in\n"
>>> pinDirectionToBS Out
"out\n"

pinDirectionValueToBS :: PinValue -> ByteString Source #

Convert a PinValue value to the corresponding ByteString value expected by a pin's direction attribute in the sysfs GPIO, which can be used to configure the pin for output and simultaneously set the pin's (physical) signal level; see the Linux kernel documentation for details.

>>> pinDirectionValueToBS Low
"low\n"
>>> pinDirectionValueToBS High
"high\n"

bsToPinDirection :: ByteString -> Maybe (PinDirection, Maybe PinValue) Source #

When writing a pin's direction attribute in the sysfs GPIO filesystem with a ByteString value, in\n configures the pin for input, and out\n configures the pin for output while also initializing the pin's (physical) signal level to a low value.

Furthermore, you may write low\n or high\n to the direction attribute to configure the pin for output and simulataneously set the pin's physical value.

Therefore, writing a pin's direction attribute affects not only its direction, but also (potentially) its value. This function's return type reflects that possibility.

See the Linux kernel documentation for details.

This function converts a direction attribute value, encoded as a strict ByteString, to its corresponding PinDirection and (possible) PinValue pair; or Nothing if the attribute encoding is invalid.

>>> :set -XOverloadedStrings
>>> bsToPinDirection "in\n"
Just (In,Nothing)
>>> bsToPinDirection "out\n"
Just (Out,Just Low)
>>> bsToPinDirection "low\n"
Just (Out,Just Low)
>>> bsToPinDirection "high\n"
Just (Out,Just High)
>>> bsToPinDirection "foo\n"
Nothing

sysfsEdgeToBS :: SysfsEdge -> ByteString Source #

Convert a SysfsEdge value to the ByteString value expected by a pin's edge attribute in the sysfs GPIO filesystem.

>>> sysfsEdgeToBS None
"none\n"
>>> sysfsEdgeToBS Rising
"rising\n"
>>> sysfsEdgeToBS Falling
"falling\n"
>>> sysfsEdgeToBS Both
"both\n"

bsToSysfsEdge :: ByteString -> Maybe SysfsEdge Source #

Inverse of sysfsEdgeToBS.

>>> :set -XOverloadedStrings
>>> bsToSysfsEdge "none\n"
Just None
>>> bsToSysfsEdge "rising\n"
Just Rising
>>> bsToSysfsEdge "falling\n"
Just Falling
>>> bsToSysfsEdge "both\n"
Just Both
>>> bsToSysfsEdge "foo\n"
Nothing

pinValueToBS :: PinValue -> ByteString Source #

Convert a PinValue to the ByteString value expected by a pin's value attribute in the sysfs GPIO filesystem.

>>> pinValueToBS Low
"0\n"
>>> pinValueToBS High
"1\n"

bsToPinValue :: ByteString -> Maybe PinValue Source #

Convert a value attribute value, encoded as a strict ByteString, to its corresponding PinValue.

Note that the sysfs value attribute is quite liberal: a ByteString value of 0\n will set the pin's (logical) signal level to low, but any other (non-empty) ByteString value will set it to high.

>>> :set -XOverloadedStrings
>>> bsToPinValue "0\n"
Just Low
>>> bsToPinValue "1\n"
Just High
>>> bsToPinValue "high\n"
Just High
>>> bsToPinValue "low\n" -- nota bene!
Just High
>>> bsToPinValue "foo\n"
Just High
>>> bsToPinValue ""
Nothing

activeLowToBS :: Bool -> ByteString Source #

Convert a Bool to the ByteString value expected by a pin's active_low attribute in the sysfs GPIO filesystem.

>>> activeLowToBS False
"0\n"
>>> activeLowToBS True
"1\n"

bsToActiveLow :: ByteString -> Maybe Bool Source #

Convert an active_low attribute value, encoded as a strict ByteString, to its corresponding Bool value.

Note that the sysfs active_low attribute is quite liberal: a ByteString value of 0\n returns False and any other (non-empty) ByteString value returns True.

>>> :set -XOverloadedStrings
>>> bsToActiveLow "0\n"
Just False
>>> bsToActiveLow "1\n"
Just True
>>> bsToActiveLow "high\n"
Just True
>>> bsToActiveLow "low\n" -- nota bene!
Just True
>>> bsToActiveLow "foo\n"
Just True
>>> bsToActiveLow ""
Nothing

intToBS :: Int -> ByteString Source #

Convert an Int to a decimal ASCII encoding in a strict ByteString.

>>> intToBS 37
"37"

bsToInt :: ByteString -> Maybe Int Source #

Convert a strict decimal ASCII ByteString encoding of an integer to an Int (maybe). If there are any extraneous trailing characters after the decimal ASCII encoding, other than a single newline character, this is treated as a failure (unlike readInt, which returns the remaining string).

>>> :set -XOverloadedStrings
>>> bsToInt "37"
Just 37
>>> bsToInt "37\n"
Just 37
>>> bsToInt "37abc"
Nothing
>>> bsToInt "37 a"
Nothing