Initial Binho Nova plumbing

[hackapet/Adafruit_Blinka.git] / src / busio.py
diff --git a/src/busio.py b/src/busio.py

old mode 100644 (file)

new mode 100755 (executable)

index e6c24f9..74cfa89
--- a/src/busio.py
+++ b/src/busio.py
@@ -1,33 +1,179 @@
+"""
+`busio` - Bus protocol support like I2C and SPI
+=================================================
+
+See `CircuitPython:busio` in CircuitPython for more details.
+
+* Author(s): cefn
+"""
+
+import threading
+
  from adafruit_blinka import Enum, Lockable, agnostic
  from adafruit_blinka import Enum, Lockable, agnostic
+from adafruit_blinka.agnostic import board_id, detector
+import adafruit_platformdetect.board as ap_board
+
+class I2C(Lockable):
+    def __init__(self, scl, sda, frequency=400000):
+        self.init(scl, sda, frequency)
+
+    def init(self, scl, sda, frequency):
+        self.deinit()
+        if detector.board.ftdi_ft232h:
+            from adafruit_blinka.microcontroller.ft232h.i2c import I2C
+            self._i2c = I2C()
+            return
+        elif detector.board.binho_nova:
+            from adafruit_blinka.microcontroller.nova.i2c import I2C
+            self._i2c = I2C()
+            return
+        elif detector.board.any_embedded_linux:
+            from adafruit_blinka.microcontroller.generic_linux.i2c import I2C as _I2C
+        else:
+            from machine import I2C as _I2C
+        from microcontroller.pin import i2cPorts
+        for portId, portScl, portSda in i2cPorts:
+            try:
+                if scl == portScl and sda == portSda:
+                    self._i2c = _I2C(portId, mode=_I2C.MASTER, baudrate=frequency)
+                    break
+            except RuntimeError:
+                pass
+        else:
+            raise ValueError(
+                "No Hardware I2C on (scl,sda)={}\nValid I2C ports: {}".format((scl, sda), i2cPorts)
+            )
+
+        self._lock = threading.RLock()
+
+    def deinit(self):
+        try:
+            del self._i2c
+        except AttributeError:
+            pass
+
+    def __enter__(self):
+        self._lock.acquire()
+        return self
+
+    def __exit__(self, exc_type, exc_value, traceback):
+        self._lock.release()
+        self.deinit()
+
+    def scan(self):
+        return self._i2c.scan()
+
+    def readfrom_into(self, address, buffer, *, start=0, end=None):
+        if start is not 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):
+        if isinstance(buffer, str):
+            buffer = bytes([ord(x) for x in buffer])
+        if start is not 0 or end is not None:
+            if end is None:
+                return self._i2c.writeto(address, memoryview(buffer)[start:], stop=stop)
+            else:
+                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):
+        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):
      def __init__(self, clock, MOSI=None, MISO=None):
  
  class SPI(Lockable):
      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.ft232h.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.ft232h.pin import SCK, MOSI, MISO
+            self._spi = _SPI()
+            self._pins = (SCK, MOSI, MISO)
+            return
+        elif 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
+        elif detector.board.any_embedded_linux:
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        else:
+            from machine import SPI as _SPI
+        from microcontroller.pin import spiPorts
+        for portId, portSck, portMosi, portMiso in spiPorts:
+            if ((clock == portSck) and                   # Clock is required!
+                (MOSI == portMosi or MOSI == None) and   # But can do with just output
+                (MISO == portMiso or MISO == None)):      # Or just input
+                self._spi = _SPI(portId)
+                self._pins = (portSck, portMosi, portMiso)
                  break
          else:
                  break
          else:
-            raise NotImplementedError(
-                "No Hardware SPI on (clock, MOSI, MISO)={}\nValid SPI ports:{}".
+            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):
                  format((clock, MOSI, MISO), spiPorts))
  
      def configure(self, baudrate=100000, polarity=0, phase=0, bits=8):
-        if self._locked:
+        if detector.board.any_raspberry_pi or detector.board.any_raspberry_pi_40_pin:
+            from adafruit_blinka.microcontroller.bcm283x.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif detector.board.any_beaglebone:
+            from adafruit_blinka.microcontroller.am335x.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif board_id == ap_board.ORANGE_PI_PC or board_id == ap_board.ORANGE_PI_R1 or board_id == ap_board.ORANGE_PI_ZERO:
+            from adafruit_blinka.microcontroller.allwinner_h3.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif board_id == ap_board.GIANT_BOARD:
+            from adafruit_blinka.microcontroller.sama5.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif board_id == ap_board.CORAL_EDGE_TPU_DEV:
+            from adafruit_blinka.microcontroller.nxp_imx8m.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif board_id == ap_board.ODROID_C2:
+            from adafruit_blinka.microcontroller.amlogic.s905.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif board_id == ap_board.DRAGONBOARD_410C:
+            from adafruit_blinka.microcontroller.snapdragon.apq8016.pin import Pin
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+        elif board_id == ap_board.JETSON_NANO:
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.tegra.t210.pin import Pin
+        elif board_id == ap_board.JETSON_TX1:
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.tegra.t210.pin import Pin
+        elif board_id == ap_board.JETSON_TX2:
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.tegra.t186.pin import Pin
+        elif board_id == ap_board.JETSON_XAVIER:
+            from adafruit_blinka.microcontroller.generic_linux.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.tegra.t194.pin import Pin
+        elif detector.board.ftdi_ft232h:
+            from adafruit_blinka.microcontroller.ft232h.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.ft232h.pin import Pin
+        elif detector.board.binho_nova:
+            from adafruit_blinka.microcontroller.nova.spi import SPI as _SPI
+            from adafruit_blinka.microcontroller.nova.pin import Pin
+        else:
+            from machine import SPI as _SPI
              from machine import Pin
              from machine import Pin
-            from microcontroller import spiPorts
+
+        if self._locked:
              # 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,
              # 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]))
+                firstbit=_SPI.MSB,
+                sck=Pin(self._pins[0].id),
+                mosi=Pin(self._pins[1].id),
+                miso=Pin(self._pins[2].id)
+            )
          else:
              raise RuntimeError("First call try_lock()")
  
          else:
              raise RuntimeError("First call try_lock()")
  
@@ -35,14 +181,21 @@ class SPI(Lockable):
          self._spi = None
          self._pinIds = None
  
          self._spi = None
          self._pinIds = None
  
-    def write(self, buf):
-        return self._spi.write(buf)
+    @property
+    def frequency(self):
+        try:
+            return self._spi.frequency
+        except AttributeError:
+            raise NotImplementedError("Frequency attribute not implemented for this platform")
+
+    def write(self, buf, start=0, end=None):
+        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):
+        return self._spi.readinto(buf, start, end, write_value=write_value)
  
  
-    def write_readinto(self, buffer_out, buffer_in):
-        return self.write_readinto(buffer_out, buffer_in)
+    def write_readinto(self, buffer_out, buffer_in,  out_start=0, out_end=None, in_start=0, in_end=None):
+        return self._spi.write_readinto(buffer_out, buffer_in, out_start, out_end, in_start, in_end)
  
  
  class UART(Lockable):
  
  
  class UART(Lockable):
@@ -52,7 +205,6 @@ class UART(Lockable):
      Parity.ODD = Parity()
      Parity.EVEN = Parity()
  
      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,
      def __init__(self,
                   tx,
                   rx,
@@ -60,26 +212,27 @@ class UART(Lockable):
                   bits=8,
                   parity=None,
                   stop=1,
                   bits=8,
                   parity=None,
                   stop=1,
-                 timeout=None,
-                 receiver_buffer_size=None,
+                 timeout=1000,
+                 receiver_buffer_size=64,
                   flow=None):
                   flow=None):
-        from microcontroller import uartPorts
-        from machine import UART
+        if detector.board.any_embedded_linux:
+            raise RuntimeError('busio.UART not supported on this platform. Please use pyserial instead.')
+        elif detector.board.binho_nova:
+            from adafruit_blinka.microcontroller.nova.uart import UART as _UART
+        else:
+            from machine import UART as _UART
+
+        if detector.board.binho_nova:
+            from adafruit_blinka.microcontroller.nova.pin import uartPorts
+        else:
+            from microcontroller.pin import uartPorts
  
          self.baudrate = baudrate
  
  
          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(
          if flow is not None:  # default 0
              raise NotImplementedError(
                  "Parameter '{}' unsupported on {}".format(
-                    "flow", agnostic.board))
+                    "flow", agnostic.board_id))
  
          # translate parity flag for Micropython
          if parity is UART.Parity.ODD:
  
          # translate parity flag for Micropython
          if parity is UART.Parity.ODD:
@@ -93,21 +246,25 @@ class UART(Lockable):
  
          # check tx and rx have hardware support
          for portId, portTx, portRx in uartPorts:  #
  
          # check tx and rx have hardware support
          for portId, portTx, portRx in uartPorts:  #
-            if portTx == tx.id and portRx == rx.id:
-                self._uart = UART(
+            if portTx == tx and portRx == rx:
+                self._uart = _UART(
                      portId,
                      baudrate,
                      bits=bits,
                      parity=parity,
                      stop=stop,
                      portId,
                      baudrate,
                      bits=bits,
                      parity=parity,
                      stop=stop,
-                    timeout=timeout)
+                    timeout=timeout,
+                    read_buf_len=receiver_buffer_size
+                )
                  break
          else:
                  break
          else:
-            raise NotImplementedError(
-                "No Hardware UART on (tx,rx)={}\nValid UART ports".format(
-                    (tx, rx), uartPorts))
+            raise ValueError(
+                "No Hardware UART on (tx,rx)={}\nValid UART ports: {}".format((tx, rx), uartPorts)
+            )
  
      def deinit(self):
  
      def deinit(self):
+        if detector.board.binho_nova:
+            self._uart.deinit()
          self._uart = None
  
      def read(self, nbytes=None):
          self._uart = None
  
      def read(self, nbytes=None):