185 lines
7.2 KiB
Markdown
185 lines
7.2 KiB
Markdown
# GPIO Module
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| Since | Origin / Contributor | Maintainer | Source |
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| :----- | :-------------------- | :---------- | :------ |
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| 2014-12-22 | [Zeroday](https://github.com/funshine) | [Zeroday](https://github.com/funshine) | [gpio.c](../../../app/modules/gpio.c)|
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This module provides access to the [GPIO](https://en.wikipedia.org/wiki/General-purpose_input/output) (General Purpose Input/Output) subsystem.
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All access is based on the I/O index number on the NodeMCU dev kits, not the internal GPIO pin. For example, the D0 pin on the dev kit is mapped to the internal GPIO pin 16.
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If not using a NodeMCU dev kit, please refer to the below GPIO pin maps for the index↔gpio mapping.
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| IO index | ESP8266 pin | IO index | ESP8266 pin |
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|---------:|:------------|---------:|:------------|
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| 0 [*] | GPIO16 | 7 | GPIO13 |
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| 1 | GPIO5 | 8 | GPIO15 |
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| 2 | GPIO4 | 9 | GPIO3 |
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| 3 | GPIO0 | 10 | GPIO1 |
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| 4 | GPIO2 | 11 | GPIO9 |
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| 5 | GPIO14 | 12 | GPIO10 |
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| 6 | GPIO12 | | |
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** [*] D0(GPIO16) can only be used as gpio read/write. No support for open-drain/interrupt/pwm/i2c/ow. **
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## gpio.mode()
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Initialize pin to GPIO mode, set the pin in/out direction, and optional internal weak pull-up.
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#### Syntax
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`gpio.mode(pin, mode [, pullup])`
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#### Parameters
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- `pin` pin to configure, IO index
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- `mode` one of gpio.OUTPUT, gpio.OPENDRAIN, gpio.INPUT, or gpio.INT (interrupt mode)
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- `pullup` gpio.PULLUP enables the weak pull-up resistor; default is gpio.FLOAT
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#### Returns
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`nil`
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#### Example
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```lua
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gpio.mode(0, gpio.OUTPUT)
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```
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#### See also
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- [`gpio.read()`](#gpioread)
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- [`gpio.write()`](#gpiowrite)
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## gpio.read()
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Read digital GPIO pin value.
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#### Syntax
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`gpio.read(pin)`
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#### Parameters
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`pin` pin to read, IO index
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#### Returns
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a number, 0 = low, 1 = high
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#### Example
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```lua
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-- read value of gpio 0.
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gpio.read(0)
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```
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#### See also
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[`gpio.mode()`](#gpiomode)
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## gpio.serout()
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Serialize output based on a sequence of delay-times in µs. After each delay, the pin is toggled. After the last cycle and last delay the pin is not toggled.
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The function works in two modes:
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* synchronous - for sub-50 µs resolution, restricted to max. overall duration,
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* asynchrounous - synchronous operation with less granularity but virtually unrestricted duration.
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Whether the asynchronous mode is chosen is defined by presence of the `callback` parameter. If present and is of function type the function goes asynchronous and the callback function is invoked when sequence finishes. If the parameter is numeric the function still goes asynchronous but no callback is invoked when done.
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For the asynchronous version, the minimum delay time should not be shorter than 50 μs and maximum delay time is 0x7fffff μs (~8.3 seconds).
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In this mode the function does not block the stack and returns immediately before the output sequence is finalized. HW timer `FRC1_SOURCE` mode is used to change the states. As there is only a single hardware timer, there
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are restrictions on which modules can be used at the same time. An error will be raised if the timer is already in use.
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Note that the synchronous variant (no or nil `callback` parameter) function blocks the stack and as such any use of it must adhere to the SDK guidelines (also explained [here](../extn-developer-faq/#extension-developer-faq)). Failure to do so may lead to WiFi issues or outright to crashes/reboots. In short it means that the sum of all delay times multiplied by the number of cycles should not exceed 15 ms.
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#### Syntax
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`gpio.serout(pin, start_level, delay_times [, cycle_num[, callback]])`
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#### Parameters
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- `pin` pin to use, IO index
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- `start_level` level to start on, either `gpio.HIGH` or `gpio.LOW`
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- `delay_times` an array of delay times in µs between each toggle of the gpio pin.
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- `cycle_num` an optional number of times to run through the sequence. (default is 1)
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- `callback` an optional callback function or number, if present the function returns immediately and goes asynchronous.
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#### Returns
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`nil`
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#### Example
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```lua
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gpio.mode(1,gpio.OUTPUT,gpio.PULLUP)
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gpio.serout(1,gpio.HIGH,{30,30,60,60,30,30}) -- serial one byte, b10110010
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gpio.serout(1,gpio.HIGH,{30,70},8) -- serial 30% pwm 10k, lasts 8 cycles
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gpio.serout(1,gpio.HIGH,{3,7},8) -- serial 30% pwm 100k, lasts 8 cycles
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gpio.serout(1,gpio.HIGH,{0,0},8) -- serial 50% pwm as fast as possible, lasts 8 cycles
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gpio.serout(1,gpio.LOW,{20,10,10,20,10,10,10,100}) -- sim uart one byte 0x5A at about 100kbps
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gpio.serout(1,gpio.HIGH,{8,18},8) -- serial 30% pwm 38k, lasts 8 cycles
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gpio.serout(1,gpio.HIGH,{5000,995000},100, function() print("done") end) -- asynchronous 100 flashes 5 ms long every second with a callback function when done
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gpio.serout(1,gpio.HIGH,{5000,995000},100, 1) -- asynchronous 100 flashes 5 ms long, no callback
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```
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## gpio.trig()
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Establish or clear a callback function to run on interrupt for a pin.
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This function is not available if GPIO_INTERRUPT_ENABLE was undefined at compile time.
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#### Syntax
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`gpio.trig(pin, [type [, callback_function]])`
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#### Parameters
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- `pin` **1-12**, pin to trigger on, IO index. Note that pin 0 does not support interrupts.
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- `type` "up", "down", "both", "low", "high", which represent *rising edge*, *falling edge*, *both
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edges*, *low level*, and *high level* trigger modes respectivey. If the type is "none" or omitted
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then the callback function is removed and the interrupt is disabled.
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- `callback_function(level, when, eventcount)` callback function when trigger occurs. The level of the specified pin
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at the interrupt passed as the first parameter to the callback. The timestamp of the event is passed
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as the second parameter. This is in microseconds and has the same base as for `tmr.now()`. This timestamp
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is grabbed at interrupt level and is more consistent than getting the time in the callback function.
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This timestamp is normally of the first interrupt detected, but, under overload conditions, might be a later one.
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The eventcount is the number of interrupts that were elided for this callback. This works best for edge triggered
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interrupts and enables counting of edges. However, beware
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of switch bounces -- you can get multiple pulses for a single switch closure. Counting
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works best when the edges are digitally generated.
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The previous callback function will be used if the function is omitted.
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#### Returns
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`nil`
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#### Example
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```lua
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do
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-- use pin 1 as the input pulse width counter
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local pin, pulse1, du, now, trig = 1, 0, 0, tmr.now, gpio.trig
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gpio.mode(pin,gpio.INT)
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local function pin1cb(level, pulse2)
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print( level, pulse2 - pulse1 )
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pulse1 = pulse2
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trig(pin, level == gpio.HIGH and "down" or "up")
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end
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trig(pin, "down", pin1cb)
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end
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```
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#### See also
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[`gpio.mode()`](#gpiomode)
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## gpio.write()
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Set digital GPIO pin value.
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#### Syntax
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`gpio.write(pin, level)`
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#### Parameters
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- `pin` pin to write, IO index
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- `level` `gpio.HIGH` or `gpio.LOW`
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#### Returns
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`nil`
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#### Example
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```lua
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-- set pin index 1 to GPIO mode, and set the pin to high.
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pin=1
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gpio.mode(pin, gpio.OUTPUT)
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gpio.write(pin, gpio.HIGH)
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```
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#### See also
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- [`gpio.mode()`](#gpiomode)
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- [`gpio.read()`](#gpioread)
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