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pwnagotchi/pwnagotchi/ui/hw/libs/adafruit/minipitft2/ST7789.py
RasTacsko 131bfc4c1c Display drivers for pwnagotchi 
<!--- Provide a general summary of your changes in the Title above -->

## Description
<!--- Describe your changes in detail -->
Display support for the following screens:
- [Pimoroni GFX Hat](https://shop.pimoroni.com/products/gfx-hat?variant=12828343631955):
ui.display.type = "gfxhat"
Contrast and Backlight color can be imported from config.toml:
ui.display.contrast = 40
ui.display.blcolor = "olive"
Available backlight colors:
white, grey, maroon, red, purple, fuchsia, green,
lime, olive, yellow, navy, blue, teal, aqua
- [Adafruit miniPiTFT](https://www.adafruit.com/product/4484):
ui.display.type = "minipitft"
- [Adafruit miniPiTFT2](https://www.adafruit.com/product/4393):
ui.display.type = "minipitft2"
- [ArgonPod](https://argon40.com/products/pod-display-2-8inch):
ui.display.type = "argonpod"
- [DisplayHatMini](https://shop.pimoroni.com/products/display-hat-mini?variant=39496084717651):
Driver updated to fix issues
- I2C Oled:
Default I2C address changed to 0x3C, because most boards are coming with it by default.
Can be modified in config
ui.display.type = "i2coled"
ui.display.i2c_addr = 0x3C
ui.display.width = 128
ui.display.height = 64

## Motivation and Context
Future plan for LCD and OLED screens:
Change from the pwnagotchis hw libraries for drivers to LumaOLED LumaLCD packages.
Luma Core: https://github.com/rm-hull/luma.core
Luma LCD: https://github.com/rm-hull/luma.lcd
Luma OLED: https://github.com/rm-hull/luma.oled
It has the most used LCD and OLED drivers ready, and adding new screens could be easier in the future.

## How Has This Been Tested?
Except the argonpod and minipitft2 all screens were tested on previous builds,
should work in 2.9.2, but before release I would like to test it with an image.

## Types of changes
<!--- What types of changes does your code introduce? Put an `x` in all the boxes that apply: -->
- [x] Bug fix (non-breaking change which fixes an issue)
- [x] New feature (non-breaking change which adds functionality)
- [ ] Breaking change (fix or feature that would cause existing functionality to change)

## Checklist:
<!--- Go over all the following points, and put an `x` in all the boxes that apply. -->
<!--- If you're unsure about any of these, don't hesitate to ask. We're here to help! -->
- [x] My code follows the code style of this project.
- [ ] My change requires a change to the documentation.
- [x] I have updated the documentation accordingly.
- [x] I've read the [CONTRIBUTION](https://github.com/evilsocket/pwnagotchi/blob/master/CONTRIBUTING.md) guide
- [x] I have signed-off my commits with `git commit -s`
2024-11-25 17:37:21 +01:00

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# Copyright (c) 2014 Adafruit Industries
# Author: Tony DiCola
#
# Permission is hereby granted, free of charge, to any person obtaining a copy
# of this software and associated documentation files (the "Software"), to deal
# in the Software without restriction, including without limitation the rights
# to use, copy, modify, merge, publish, distribute, sublicense, and/or sell
# copies of the Software, and to permit persons to whom the Software is
# furnished to do so, subject to the following conditions:
#
# The above copyright notice and this permission notice shall be included in
# all copies or substantial portions of the Software.
#
# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM,
# OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN
# THE SOFTWARE.
import numbers
import time
import numpy as np
import spidev
import RPi.GPIO as GPIO
__version__ = '0.0.4'
BG_SPI_CS_BACK = 0
BG_SPI_CS_FRONT = 1
SPI_CLOCK_HZ = 16000000
ST7789_NOP = 0x00
ST7789_SWRESET = 0x01
ST7789_RDDID = 0x04
ST7789_RDDST = 0x09
ST7789_SLPIN = 0x10
ST7789_SLPOUT = 0x11
ST7789_PTLON = 0x12
ST7789_NORON = 0x13
ST7789_INVOFF = 0x20
ST7789_INVON = 0x21
ST7789_DISPOFF = 0x28
ST7789_DISPON = 0x29
ST7789_CASET = 0x2A
ST7789_RASET = 0x2B
ST7789_RAMWR = 0x2C
ST7789_RAMRD = 0x2E
ST7789_PTLAR = 0x30
ST7789_MADCTL = 0x36
ST7789_COLMOD = 0x3A
ST7789_FRMCTR1 = 0xB1
ST7789_FRMCTR2 = 0xB2
ST7789_FRMCTR3 = 0xB3
ST7789_INVCTR = 0xB4
ST7789_DISSET5 = 0xB6
ST7789_GCTRL = 0xB7
ST7789_GTADJ = 0xB8
ST7789_VCOMS = 0xBB
ST7789_LCMCTRL = 0xC0
ST7789_IDSET = 0xC1
ST7789_VDVVRHEN = 0xC2
ST7789_VRHS = 0xC3
ST7789_VDVS = 0xC4
ST7789_VMCTR1 = 0xC5
ST7789_FRCTRL2 = 0xC6
ST7789_CABCCTRL = 0xC7
ST7789_RDID1 = 0xDA
ST7789_RDID2 = 0xDB
ST7789_RDID3 = 0xDC
ST7789_RDID4 = 0xDD
ST7789_GMCTRP1 = 0xE0
ST7789_GMCTRN1 = 0xE1
ST7789_PWCTR6 = 0xFC
class ST7789(object):
"""Representation of an ST7789 TFT LCD."""
def __init__(self, port, cs, dc, backlight, rst=None, width=240,
height=135, rotation=0, invert=True, spi_speed_hz=60 * 1000 * 1000,
offset_left=0,
offset_top=0):
"""Create an instance of the display using SPI communication.
Must provide the GPIO pin number for the D/C pin and the SPI driver.
Can optionally provide the GPIO pin number for the reset pin as the rst parameter.
:param port: SPI port number
:param cs: SPI chip-select number (0 or 1 for BCM
:param backlight: Pin for controlling backlight
:param rst: Reset pin for ST7789
:param width: Width of display connected to ST7789
:param height: Height of display connected to ST7789
:param rotation: Rotation of display connected to ST7789
:param invert: Invert display
:param spi_speed_hz: SPI speed (in Hz)
"""
if rotation not in [0, 90, 180, 270]:
raise ValueError("Invalid rotation {}".format(rotation))
if width != height and rotation in [90, 270]:
raise ValueError("Invalid rotation {} for {}x{} resolution".format(rotation, width, height))
GPIO.setwarnings(False)
GPIO.setmode(GPIO.BCM)
self._spi = spidev.SpiDev(port, cs)
self._spi.mode = 0
self._spi.lsbfirst = False
self._spi.max_speed_hz = spi_speed_hz
self._dc = dc
self._rst = rst
self._width = width
self._height = height
self._rotation = rotation
self._invert = invert
self._offset_left = offset_left
self._offset_top = offset_top
# Set DC as output.
GPIO.setup(dc, GPIO.OUT)
# Setup backlight as output (if provided).
self._backlight = backlight
if backlight is not None:
GPIO.setup(backlight, GPIO.OUT)
GPIO.output(backlight, GPIO.LOW)
time.sleep(0.1)
GPIO.output(backlight, GPIO.HIGH)
# Setup reset as output (if provided).
if rst is not None:
GPIO.setup(self._rst, GPIO.OUT)
self.reset()
self._init()
def send(self, data, is_data=True, chunk_size=4096):
"""Write a byte or array of bytes to the display. Is_data parameter
controls if byte should be interpreted as display data (True) or command
data (False). Chunk_size is an optional size of bytes to write in a
single SPI transaction, with a default of 4096.
"""
# Set DC low for command, high for data.
GPIO.output(self._dc, is_data)
# Convert scalar argument to list so either can be passed as parameter.
if isinstance(data, numbers.Number):
data = [data & 0xFF]
# Write data a chunk at a time.
for start in range(0, len(data), chunk_size):
end = min(start + chunk_size, len(data))
self._spi.xfer(data[start:end])
def set_backlight(self, value):
"""Set the backlight on/off."""
if self._backlight is not None:
GPIO.output(self._backlight, value)
@property
def width(self):
return self._width if self._rotation == 0 or self._rotation == 180 else self._height
@property
def height(self):
return self._height if self._rotation == 0 or self._rotation == 180 else self._width
def command(self, data):
"""Write a byte or array of bytes to the display as command data."""
self.send(data, False)
def data(self, data):
"""Write a byte or array of bytes to the display as display data."""
self.send(data, True)
def reset(self):
"""Reset the display, if reset pin is connected."""
if self._rst is not None:
GPIO.output(self._rst, 1)
time.sleep(0.500)
GPIO.output(self._rst, 0)
time.sleep(0.500)
GPIO.output(self._rst, 1)
time.sleep(0.500)
def _init(self):
# Initialize the display.
self.command(ST7789_SWRESET) # Software reset
time.sleep(0.150) # delay 150 ms
self.command(ST7789_MADCTL)
self.data(0x70)
self.command(ST7789_FRMCTR2) # Frame rate ctrl - idle mode
self.data(0x0C)
self.data(0x0C)
self.data(0x00)
self.data(0x33)
self.data(0x33)
self.command(ST7789_COLMOD)
self.data(0x05)
self.command(ST7789_GCTRL)
self.data(0x14)
self.command(ST7789_VCOMS)
self.data(0x37)
self.command(ST7789_LCMCTRL) # Power control
self.data(0x2C)
self.command(ST7789_VDVVRHEN) # Power control
self.data(0x01)
self.command(ST7789_VRHS) # Power control
self.data(0x12)
self.command(ST7789_VDVS) # Power control
self.data(0x20)
self.command(0xD0)
self.data(0xA4)
self.data(0xA1)
self.command(ST7789_FRCTRL2)
self.data(0x0F)
self.command(ST7789_GMCTRP1) # Set Gamma
self.data(0xD0)
self.data(0x04)
self.data(0x0D)
self.data(0x11)
self.data(0x13)
self.data(0x2B)
self.data(0x3F)
self.data(0x54)
self.data(0x4C)
self.data(0x18)
self.data(0x0D)
self.data(0x0B)
self.data(0x1F)
self.data(0x23)
self.command(ST7789_GMCTRN1) # Set Gamma
self.data(0xD0)
self.data(0x04)
self.data(0x0C)
self.data(0x11)
self.data(0x13)
self.data(0x2C)
self.data(0x3F)
self.data(0x44)
self.data(0x51)
self.data(0x2F)
self.data(0x1F)
self.data(0x1F)
self.data(0x20)
self.data(0x23)
if self._invert:
self.command(ST7789_INVON) # Invert display
else:
self.command(ST7789_INVOFF) # Don't invert display
self.command(ST7789_SLPOUT)
self.command(ST7789_DISPON) # Display on
time.sleep(0.100) # 100 ms
def begin(self):
"""Set up the display
Deprecated. Included in __init__.
"""
pass
def set_window(self, x0=0, y0=0, x1=None, y1=None):
"""Set the pixel address window for proceeding drawing commands. x0 and
x1 should define the minimum and maximum x pixel bounds. y0 and y1
should define the minimum and maximum y pixel bound. If no parameters
are specified the default will be to update the entire display from 0,0
to width-1,height-1.
"""
if x1 is None:
x1 = self._width - 1
if y1 is None:
y1 = self._height - 1
y0 += self._offset_top
y1 += self._offset_top
x0 += self._offset_left
x1 += self._offset_left
self.command(ST7789_CASET) # Column addr set
self.data(x0 >> 8)
self.data(x0 & 0xFF) # XSTART
self.data(x1 >> 8)
self.data(x1 & 0xFF) # XEND
self.command(ST7789_RASET) # Row addr set
self.data(y0 >> 8)
self.data(y0 & 0xFF) # YSTART
self.data(y1 >> 8)
self.data(y1 & 0xFF) # YEND
self.command(ST7789_RAMWR) # write to RAM
def display(self, image):
"""Write the provided image to the hardware.
:param image: Should be RGB format and the same dimensions as the display hardware.
"""
# Set address bounds to entire display.
self.set_window()
# Convert image to 16bit RGB565 format and
# flatten into bytes.
pixelbytes = self.image_to_data(image, self._rotation)
# Write data to hardware.
for i in range(0, len(pixelbytes), 4096):
self.data(pixelbytes[i:i + 4096])
def image_to_data(self, image, rotation=0):
if not isinstance(image, np.ndarray):
image = np.array(image.convert('RGB'))
# Rotate the image
pb = np.rot90(image, rotation // 90).astype('uint16')
# Mask and shift the 888 RGB into 565 RGB
red = (pb[..., [0]] & 0xf8) << 8
green = (pb[..., [1]] & 0xfc) << 3
blue = (pb[..., [2]] & 0xf8) >> 3
# Stick 'em together
result = red | green | blue
# Output the raw bytes
return result.byteswap().tobytes()
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