X-Git-Url: https://git.ayoreis.com/Adafruit_Blinka-hackapet.git/blobdiff_plain/72e45c78d61112a5e4a5c2d75f44006d43cedfe0..refs/heads/micropython-pyi:/src/busio.py diff --git a/src/busio.py b/src/busio.py index 25939fc..dd748a5 100644 --- a/src/busio.py +++ b/src/busio.py @@ -1,59 +1,435 @@ +# SPDX-FileCopyrightText: 2021 Melissa LeBlanc-Williams for Adafruit Industries +# +# SPDX-License-Identifier: MIT +""" +`busio` - Bus protocol support like I2C and SPI +================================================= + +See `CircuitPython:busio` in CircuitPython for more details. + +* Author(s): cefn +""" + +try: + import threading +except ImportError: + threading = None + +# pylint: disable=unused-import +import adafruit_platformdetect.constants.boards as ap_board +import adafruit_platformdetect.constants.chips as ap_chip from adafruit_blinka import Enum, Lockable, agnostic +from adafruit_blinka.agnostic import board_id, detector + +# pylint: disable=import-outside-toplevel,too-many-branches,too-many-statements +# pylint: disable=too-many-arguments,too-many-function-args,too-many-return-statements + + +class I2C(Lockable): + """ + Busio I2C Class for CircuitPython Compatibility. Used + for both MicroPython and Linux. + """ + + def __init__(self, scl, sda, frequency=100000): + self.init(scl, sda, frequency) + + def init(self, scl, sda, frequency): + """Initialization""" + self.deinit() + if detector.board.ftdi_ft232h: + from adafruit_blinka.microcontroller.ftdi_mpsse.mpsse.i2c import I2C as _I2C + + self._i2c = _I2C(frequency=frequency) + return + if detector.board.binho_nova: + from adafruit_blinka.microcontroller.nova.i2c import I2C as _I2C + + self._i2c = _I2C(frequency=frequency) + return + if detector.board.microchip_mcp2221: + from adafruit_blinka.microcontroller.mcp2221.i2c import I2C as _I2C + + self._i2c = _I2C(frequency=frequency) + return + if detector.board.greatfet_one: + from adafruit_blinka.microcontroller.nxp_lpc4330.i2c import I2C as _I2C + + self._i2c = _I2C(frequency=frequency) + return + if detector.board.pico_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.i2c import I2C_Pico as _I2C + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.board.feather_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.i2c import ( + I2C_Feather as _I2C, + ) + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.board.qtpy_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.i2c import I2C_QTPY as _I2C + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.board.itsybitsy_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.i2c import ( + I2C_ItsyBitsy as _I2C, + ) + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.board.macropad_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.i2c import ( + I2C_MacroPad as _I2C, + ) + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.board.qt2040_trinkey_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.i2c import ( + I2C_QT2040_Trinkey as _I2C, + ) + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.chip.id == ap_chip.RP2040: + from adafruit_blinka.microcontroller.rp2040.i2c import I2C as _I2C + + self._i2c = _I2C(scl, sda, frequency=frequency) + return + if detector.board.any_embedded_linux: + from adafruit_blinka.microcontroller.generic_linux.i2c import I2C as _I2C + elif detector.board.ftdi_ft2232h: + from adafruit_blinka.microcontroller.ftdi_mpsse.mpsse.i2c import I2C as _I2C + else: + from adafruit_blinka.microcontroller.generic_micropython.i2c import ( + I2C as _I2C, + ) + from microcontroller.pin import i2cPorts + + for portId, portScl, portSda in i2cPorts: + try: + # pylint: disable=unexpected-keyword-arg + if scl == portScl and sda == portSda: + self._i2c = _I2C(portId, mode=_I2C.MASTER, baudrate=frequency) + break + # pylint: enable=unexpected-keyword-arg + except RuntimeError: + pass + else: + raise ValueError( + "No Hardware I2C on (scl,sda)={}\nValid I2C ports: {}".format( + (scl, sda), i2cPorts + ) + ) + if threading is not None: + self._lock = threading.RLock() + + def deinit(self): + """Deinitialization""" + try: + del self._i2c + except AttributeError: + pass + + def __enter__(self): + if threading is not None: + self._lock.acquire() + return self + + def __exit__(self, exc_type, exc_value, traceback): + if threading is not None: + self._lock.release() + self.deinit() + + def scan(self): + """Scan for attached devices""" + return self._i2c.scan() + + def readfrom_into(self, address, buffer, *, start=0, end=None): + """Read from a device at specified address into a buffer""" + if start != 0 or end is not None: + if end is None: + end = len(buffer) + buffer = memoryview(buffer)[start:end] + stop = True # remove for efficiency later + return self._i2c.readfrom_into(address, buffer, stop=stop) + + def writeto(self, address, buffer, *, start=0, end=None, stop=True): + """Write to a device at specified address from a buffer""" + if isinstance(buffer, str): + buffer = bytes([ord(x) for x in buffer]) + if start != 0 or end is not None: + if end is None: + return self._i2c.writeto(address, memoryview(buffer)[start:], stop=stop) + return self._i2c.writeto(address, memoryview(buffer)[start:end], stop=stop) + return self._i2c.writeto(address, buffer, stop=stop) + + def writeto_then_readfrom( + self, + address, + buffer_out, + buffer_in, + *, + out_start=0, + out_end=None, + in_start=0, + in_end=None, + stop=False, + ): + """ "Write to a device at specified address from a buffer then read + from a device at specified address into a buffer + """ + return self._i2c.writeto_then_readfrom( + address, + buffer_out, + buffer_in, + out_start=out_start, + out_end=out_end, + in_start=in_start, + in_end=in_end, + stop=stop, + ) class SPI(Lockable): + """ + Busio SPI Class for CircuitPython Compatibility. Used + for both MicroPython and Linux. + """ + def __init__(self, clock, MOSI=None, MISO=None): - from microcontroller import spiPorts - for spiId, sck, mosi, miso in spiPorts: - if sck == clock.id and mosi == MOSI.id and miso == MISO.id: - self._spi = SPI(spiId) - self._pinIds = (sck, mosi, miso) + self.deinit() + if detector.board.ftdi_ft232h: + from adafruit_blinka.microcontroller.ftdi_mpsse.mpsse.spi import SPI as _SPI + from adafruit_blinka.microcontroller.ftdi_mpsse.ft232h.pin import ( + SCK, + MOSI, + MISO, + ) + + self._spi = _SPI() + self._pins = (SCK, MOSI, MISO) + return + if detector.board.binho_nova: + from adafruit_blinka.microcontroller.nova.spi import SPI as _SPI + from adafruit_blinka.microcontroller.nova.pin import SCK, MOSI, MISO + + self._spi = _SPI(clock) + self._pins = (SCK, MOSI, MISO) + return + if detector.board.greatfet_one: + from adafruit_blinka.microcontroller.nxp_lpc4330.spi import SPI as _SPI + from adafruit_blinka.microcontroller.nxp_lpc4330.pin import SCK, MOSI, MISO + + self._spi = _SPI() + self._pins = (SCK, MOSI, MISO) + return + if detector.board.pico_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import SPI_Pico as _SPI + + self._spi = _SPI(clock) # this is really all that's needed + self._pins = (clock, clock, clock) # will determine MOSI/MISO from clock + return + if detector.board.feather_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import ( + SPI_Feather as _SPI, + ) + + self._spi = _SPI(clock) # this is really all that's needed + self._pins = (clock, clock, clock) # will determine MOSI/MISO from clock + return + if detector.board.itsybitsy_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import ( + SPI_ItsyBitsy as _SPI, + ) + + self._spi = _SPI(clock) # this is really all that's needed + self._pins = (clock, clock, clock) # will determine MOSI/MISO from clock + return + if detector.board.macropad_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import ( + SPI_MacroPad as _SPI, + ) + + self._spi = _SPI(clock) # this is really all that's needed + self._pins = (clock, clock, clock) # will determine MOSI/MISO from clock + return + if detector.board.qtpy_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import SPI_QTPY as _SPI + + self._spi = _SPI(clock) # this is really all that's needed + self._pins = (clock, clock, clock) # will determine MOSI/MISO from clock + return + if detector.chip.id == ap_chip.RP2040: + from adafruit_blinka.microcontroller.rp2040.spi import SPI as _SPI + + self._spi = _SPI(clock, MOSI, MISO) # Pins configured on instantiation + self._pins = (clock, clock, clock) # These don't matter, they're discarded + return + if detector.board.any_embedded_linux: + from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI + elif detector.board.ftdi_ft2232h: + from adafruit_blinka.microcontroller.ftdi_mpsse.mpsse.spi import SPI as _SPI + else: + from adafruit_blinka.microcontroller.generic_micropython.spi import ( + SPI as _SPI, + ) + from microcontroller.pin import spiPorts + + for portId, portSck, portMosi, portMiso in spiPorts: + if ( + (clock == portSck) + and MOSI in (portMosi, None) # Clock is required! + and MISO in (portMiso, None) # But can do with just output + ): # Or just input + self._spi = _SPI(portId) + self._pins = (portSck, portMosi, portMiso) break else: - raise NotImplementedError("No Hardware SPI on (clock, MOSI, MISO)={}\nValid SPI ports:{}".format((clock, MOSI, MISO), spiPorts)) + raise ValueError( + "No Hardware SPI on (SCLK, MOSI, MISO)={}\nValid SPI ports:{}".format( + (clock, MOSI, MISO), spiPorts + ) + ) def configure(self, baudrate=100000, polarity=0, phase=0, bits=8): + """Update the configuration""" + if detector.board.any_nanopi and detector.chip.id == ap_chip.SUN8I: + from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI + elif detector.board.ftdi_ft232h: + from adafruit_blinka.microcontroller.ftdi_mpsse.mpsse.spi import ( + SPI as _SPI, + ) + elif detector.board.ftdi_ft2232h: + from adafruit_blinka.microcontroller.ftdi_mpsse.mpsse.spi import ( + SPI as _SPI, + ) + elif detector.board.binho_nova: + from adafruit_blinka.microcontroller.nova.spi import SPI as _SPI + elif detector.board.greatfet_one: + from adafruit_blinka.microcontroller.nxp_lpc4330.spi import SPI as _SPI + elif detector.board.any_lubancat and detector.chip.id == ap_chip.IMX6ULL: + from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI + elif detector.board.pico_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import SPI_Pico as _SPI + elif detector.board.feather_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import ( + SPI_Feather as _SPI, + ) + elif detector.board.itsybitsy_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import ( + SPI_ItsyBitsy as _SPI, + ) + elif detector.board.macropad_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import ( + SPI_MacroPad as _SPI, + ) + elif detector.board.qtpy_u2if: + from adafruit_blinka.microcontroller.rp2040_u2if.spi import SPI_QTPY as _SPI + elif detector.chip.id == ap_chip.RP2040: + from adafruit_blinka.microcontroller.rp2040.spi import SPI as _SPI + elif detector.board.any_embedded_linux: + from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI + else: + from adafruit_blinka.microcontroller.generic_micropython.spi import ( + SPI as _SPI, + ) + if self._locked: - from machine import Pin - from microcontroller import spiPorts # TODO check if #init ignores MOSI=None rather than unsetting, to save _pinIds attribute - self._spi.init(baudrate=baudrate, polarity=polarity, phase=phase, bits = bits, firstbit = SPI.MSB, sck = Pin(self._pinIds[0]), mosi=Pin(self._pinIds[1]), miso=Pin(self._pinIds[2])) + self._spi.init( + baudrate=baudrate, + polarity=polarity, + phase=phase, + bits=bits, + firstbit=_SPI.MSB, + ) else: raise RuntimeError("First call try_lock()") def deinit(self): + """Deinitialization""" self._spi = None self._pinIds = None - def write(self, buf): - return self._spi.write(buf) + @property + def frequency(self): + """Return the baud rate if implemented""" + try: + return self._spi.frequency + except AttributeError as error: + raise NotImplementedError( + "Frequency attribute not implemented for this platform" + ) from error + + def write(self, buf, start=0, end=None): + """Write to the SPI device""" + return self._spi.write(buf, start, end) - def readinto(self, buf): - return self.readinto(buf) + def readinto(self, buf, start=0, end=None, write_value=0): + """Read from the SPI device into a buffer""" + return self._spi.readinto(buf, start, end, write_value=write_value) + + def write_readinto( + self, buffer_out, buffer_in, out_start=0, out_end=None, in_start=0, in_end=None + ): + """Write to the SPI device and read from the SPI device into a buffer""" + return self._spi.write_readinto( + buffer_out, buffer_in, out_start, out_end, in_start, in_end + ) - def write_readinto(self, buffer_out, buffer_in): - return self.write_readinto(buffer_out, buffer_in) class UART(Lockable): + """ + Busio UART Class for CircuitPython Compatibility. Used + for MicroPython and a few other non-Linux boards. + """ class Parity(Enum): - pass - Parity.ODD=Parity() - Parity.EVEN=Parity() + """Parity Enumeration""" + + pass # pylint: disable=unnecessary-pass + + Parity.ODD = Parity() + Parity.EVEN = Parity() - # TODO investigate UART receiver_buffer_size as e.g. read_buf_len in https://github.com/micropython/micropython/blob/3eb0694b97c6a8f0e93b874549aac40d8b78b0e5/ports/stm32/uart.c - def __init__(self, tx, rx, baudrate=9600, bits=8, parity=None, stop=1, timeout=None, receiver_buffer_size=None, flow=None): - from microcontroller import uartPorts - from machine import UART + def __init__( + self, + tx, + rx, + baudrate=9600, + bits=8, + parity=None, + stop=1, + timeout=1000, + receiver_buffer_size=64, + flow=None, + ): + if detector.board.any_embedded_linux: + raise RuntimeError( + "busio.UART not supported on this platform. Please use pyserial instead." + ) + if detector.board.binho_nova: + from adafruit_blinka.microcontroller.nova.uart import UART as _UART + elif detector.board.greatfet_one: + from adafruit_blinka.microcontroller.nxp_lpc4330.uart import UART as _UART + elif detector.chip.id == ap_chip.RP2040: + from adafruit_blinka.microcontroller.rp2040.uart import UART as _UART + else: + from machine import UART as _UART + + from microcontroller.pin import uartPorts self.baudrate = baudrate - if timeout is not None: # default 1000 - raise NotImplementedError("Parameter '{}' unsupported on {}".format("timeout", agnostic.board)) - if receiver_buffer_size is not None: # default 64 - raise NotImplementedError("Parameter '{}' unsupported on {}".format("receiver_buffer_size", agnostic.board)) - if flow is not None: # default 0 - raise NotImplementedError("Parameter '{}' unsupported on {}".format("flow", agnostic.board)) + if flow is not None: # default 0 + raise NotImplementedError( + "Parameter '{}' unsupported on {}".format("flow", agnostic.board_id) + ) # translate parity flag for Micropython if parity is UART.Parity.ODD: @@ -65,25 +441,54 @@ class UART(Lockable): else: raise ValueError("Invalid parity") - # check tx and rx have hardware support - for portId, portTx, portRx in uartPorts:# - if portTx == tx.id and portRx == rx.id: - self._uart = UART(portId, baudrate, bits=bits, parity=parity, stop=stop, timeout=timeout) - break + if detector.chip.id == ap_chip.RP2040: + self._uart = _UART( + tx, + rx, + baudrate=baudrate, + bits=bits, + parity=parity, + stop=stop, + ) else: - raise NotImplementedError("No Hardware UART on (tx,rx)={}\nValid UART ports".format((tx, rx), uartPorts)) + # check tx and rx have hardware support + for portId, portTx, portRx in uartPorts: # + if portTx == tx and portRx == rx: + self._uart = _UART( + portId, + baudrate, + bits=bits, + parity=parity, + stop=stop, + timeout=timeout, + read_buf_len=receiver_buffer_size, + ) + break + else: + raise ValueError( + "No Hardware UART on (tx,rx)={}\nValid UART ports: {}".format( + (tx, rx), uartPorts + ) + ) def deinit(self): + """Deinitialization""" + if detector.board.binho_nova: + self._uart.deinit() self._uart = None def read(self, nbytes=None): + """Read from the UART""" return self._uart.read(nbytes) def readinto(self, buf, nbytes=None): + """Read from the UART into a buffer""" return self._uart.readinto(buf, nbytes) def readline(self): + """Read a line of characters up to a newline charater from the UART""" return self._uart.readline() def write(self, buf): + """Write to the UART from a buffer""" return self._uart.write(buf)