implemented SPI driver

doublebuf
Ondřej Hruška 7 years ago
parent 261aa66311
commit aefa2bdb1a
Signed by: MightyPork
GPG Key ID: 2C5FD5035250423D
  1. 6
      gex/Client.py
  2. 12
      gex/Unit.py
  3. 1
      gex/__init__.py
  4. 2
      gex/units/DIn.py
  5. 8
      gex/units/DOut.py
  6. 8
      gex/units/I2C.py
  7. 6
      gex/units/Neopixel.py
  8. 49
      gex/units/SPI.py
  9. 7
      main.py

@ -17,11 +17,15 @@ class Client:
resp = self.query_raw(type=gex.MSG_PING) resp = self.query_raw(type=gex.MSG_PING)
print("GEX connected, version string: %s" % resp.data.decode('utf-8')) print("GEX connected, version string: %s" % resp.data.decode('utf-8'))
# fallback error listener
def error_lst(tf :TinyFrame, msg :TF_Msg):
raise Exception("ERROR MESSAGE! %s" % msg.data.decode('utf-8'))
self.tf.add_type_listener(gex.MSG_ERROR, error_lst)
# lambda # lambda
def unit_repot_lst(tf :TinyFrame, msg :TF_Msg): def unit_repot_lst(tf :TinyFrame, msg :TF_Msg):
self.handle_unit_report(msg) self.handle_unit_report(msg)
return TF.STAY return TF.STAY
self.tf.add_type_listener(gex.MSG_UNIT_REPORT, unit_repot_lst) self.tf.add_type_listener(gex.MSG_UNIT_REPORT, unit_repot_lst)
self.unit_lu = {} self.unit_lu = {}

@ -9,29 +9,29 @@ class Unit:
self.callsign = client.get_callsign(name, self.unit_type) self.callsign = client.get_callsign(name, self.unit_type)
def evt_hdl(event: int, payload): def evt_hdl(event: int, payload):
self.on_event(event, payload) self._on_event(event, payload)
self.client.bind_report_listener(self.callsign, evt_hdl) self.client.bind_report_listener(self.callsign, evt_hdl)
def _type(self) -> str: def _type(self) -> str:
raise NotImplementedError("Missing _type() in Unit class \"%s\"" % self.__class__.__name__) raise NotImplementedError("Missing _type() in Unit class \"%s\"" % self.__class__.__name__)
def send(self, cmd:int, pld=None, id:int=None): def _send(self, cmd:int, pld=None, id:int=None):
""" Send a command to the unit """ """ Send a command to the unit """
self.client.send(cs=self.callsign, cmd=cmd, pld=pld, id=id) self.client.send(cs=self.callsign, cmd=cmd, pld=pld, id=id)
def query(self, cmd:int, pld=None, id:int=None) -> TF_Msg: def _query(self, cmd:int, pld=None, id:int=None) -> TF_Msg:
""" Query the unit. Returns TF_Msg """ """ Query the unit. Returns TF_Msg """
return self.client.query(cs=self.callsign, cmd=cmd, pld=pld, id=None) return self.client.query(cs=self.callsign, cmd=cmd, pld=pld, id=None)
def bulk_read(self, cmd:int, pld=None, id:int=None, chunk:int=1024) -> bytearray: def _bulk_read(self, cmd:int, pld=None, id:int=None, chunk:int=1024) -> bytearray:
""" """
Perform a bulk read. Perform a bulk read.
cmd, id and pld are used to initiate the read. cmd, id and pld are used to initiate the read.
""" """
return self.client.bulk_read(cs=self.callsign, cmd=cmd, id=id, pld=pld, chunk=chunk) return self.client.bulk_read(cs=self.callsign, cmd=cmd, id=id, pld=pld, chunk=chunk)
def bulk_write(self, cmd:int, bulk, id:int=None, pld=None): def _bulk_write(self, cmd:int, bulk, id:int=None, pld=None):
""" """
Perform a bulk write. Perform a bulk write.
cmd, id and pld are used to initiate the read. cmd, id and pld are used to initiate the read.
@ -39,6 +39,6 @@ class Unit:
""" """
self.client.bulk_write(cs=self.callsign, cmd=cmd, id=id, pld=pld, bulk=bulk) self.client.bulk_write(cs=self.callsign, cmd=cmd, id=id, pld=pld, bulk=bulk)
def on_event(self, event:int, payload): def _on_event(self, event:int, payload):
""" Stub for an event handler """ """ Stub for an event handler """
raise NotImplementedError("Missing on_event() in Unit class \"%s\"" % self.__class__.__name__) raise NotImplementedError("Missing on_event() in Unit class \"%s\"" % self.__class__.__name__)

@ -11,6 +11,7 @@ from gex.units.DOut import DOut
from gex.units.DIn import DIn from gex.units.DIn import DIn
from gex.units.Neopixel import Neopixel from gex.units.Neopixel import Neopixel
from gex.units.I2C import I2C from gex.units.I2C import I2C
from gex.units.SPI import SPI
# General, low level # General, low level

@ -14,6 +14,6 @@ class DIn(gex.Unit):
def read(self): def read(self):
""" Read pins """ """ Read pins """
msg = self.query(0x00) msg = self._query(0x00)
pp = gex.PayloadParser(msg) pp = gex.PayloadParser(msg)
return pp.u16() return pp.u16()

@ -17,22 +17,22 @@ class DOut(gex.Unit):
""" Set pins to a value """ """ Set pins to a value """
pb = gex.PayloadBuilder() pb = gex.PayloadBuilder()
pb.u16(pins) pb.u16(pins)
self.send(0x00, pb.close()) self._send(0x00, pb.close())
def set(self, pins:int): def set(self, pins:int):
""" Set pins high """ """ Set pins high """
pb = gex.PayloadBuilder() pb = gex.PayloadBuilder()
pb.u16(pins) pb.u16(pins)
self.send(0x01, pb.close()) self._send(0x01, pb.close())
def clear(self, pins:int): def clear(self, pins:int):
""" Set pins low """ """ Set pins low """
pb = gex.PayloadBuilder() pb = gex.PayloadBuilder()
pb.u16(pins) pb.u16(pins)
self.send(0x02, pb.close()) self._send(0x02, pb.close())
def toggle(self, pins:int): def toggle(self, pins:int):
""" Toggle pins """ """ Toggle pins """
pb = gex.PayloadBuilder() pb = gex.PayloadBuilder()
pb.u16(pins) pb.u16(pins)
self.send(0x03, pb.close()) self._send(0x03, pb.close())

@ -20,7 +20,7 @@ class I2C(gex.Unit):
""" """
pb = self._begin_i2c_pld(address, a10bit) pb = self._begin_i2c_pld(address, a10bit)
pb.blob(payload) # payload to write pb.blob(payload) # payload to write
self.query(0x80, pb.close()) self._query(0x80, pb.close())
def read(self, address:int, count, a10bit:bool=False): def read(self, address:int, count, a10bit:bool=False):
""" """
@ -28,7 +28,7 @@ class I2C(gex.Unit):
""" """
pb = self._begin_i2c_pld(address, a10bit) pb = self._begin_i2c_pld(address, a10bit)
pb.u16(count) # number of bytes to read pb.u16(count) # number of bytes to read
self.query(0x01, pb.close()) self._query(0x01, pb.close())
def read_reg(self, address:int, reg, width:int=1, a10bit:bool=False, endian='little'): def read_reg(self, address:int, reg, width:int=1, a10bit:bool=False, endian='little'):
""" """
@ -43,7 +43,7 @@ class I2C(gex.Unit):
pb = self._begin_i2c_pld(address, a10bit) pb = self._begin_i2c_pld(address, a10bit)
pb.u8(reg) pb.u8(reg)
pb.u16(width*count) # we assume the device will auto-increment (most do) pb.u16(width*count) # we assume the device will auto-increment (most do)
resp = self.query(0x03, pb.close()) resp = self._query(0x03, pb.close())
fields = [] fields = []
pp = gex.PayloadParser(resp.data, endian=endian) pp = gex.PayloadParser(resp.data, endian=endian)
@ -69,4 +69,4 @@ class I2C(gex.Unit):
elif width == 4: pb.u32(value) elif width == 4: pb.u32(value)
else: raise Exception("Bad width") else: raise Exception("Bad width")
self.query(0x82, pb.close()) self._query(0x82, pb.close())

@ -10,7 +10,7 @@ class Neopixel(gex.Unit):
def get_len(self): def get_len(self):
""" Get the neopixel strip length """ """ Get the neopixel strip length """
resp = self.query(0x04) resp = self._query(0x04)
pp = gex.PayloadParser(resp) pp = gex.PayloadParser(resp)
return pp.u16() return pp.u16()
@ -24,10 +24,10 @@ class Neopixel(gex.Unit):
pb = gex.PayloadBuilder(endian='big' if reverse else 'little') pb = gex.PayloadBuilder(endian='big' if reverse else 'little')
for c in colors: for c in colors:
pb.u24(c) pb.u24(c)
self.send(0x01, pb.close()) self._send(0x01, pb.close())
def clear(self): def clear(self):
""" """
Reset the strip (set all to black) Reset the strip (set all to black)
""" """
self.send(0x00) self._send(0x00)

@ -0,0 +1,49 @@
import gex
class SPI(gex.Unit):
"""
SPI master direct access
"""
def _type(self):
return 'SPI'
def query(self, slave:int, tbytes, rlen:int, rskip:int=-1):
"""
Query a slave.
If rskip is -1 (default), the tbytes length will be used.
Set it to 0 to skip nothing.
"""
if rskip == -1:
rskip = len(tbytes)
pb = gex.PayloadBuilder()
pb.u8(slave)
pb.u16(rskip)
pb.u16(rlen)
pb.blob(tbytes)
if rlen > 0:
resp = self._query(0, pb.close())
return resp.data
else:
# write only
self._query(0x80, pb.close())
return []
def write(self, slave:int, tbytes):
"""
Write with no response received
"""
self.query(slave, tbytes, rlen=0, rskip=0)
def multicast(self, slaves:int, tbytes):
"""
Write with multiple slaves at once.
Slaves is a right-aligned bitmap (eg. pins 0,2,3 would be 0b1101)
"""
pb = gex.PayloadBuilder()
pb.u16(slaves)
pb.blob(tbytes)
# write only
self._query(0x81, pb.close())

@ -61,7 +61,7 @@ if False:
for i in range(0,512): for i in range(0,512):
j = i if i < 256 else 255-(i-256) j = i if i < 256 else 255-(i-256)
neo.load([0x660000+j, 0x3300FF-j, 0xFFFF00-(j<<8), 0x0000FF+(j<<8)-j]) neo.load([0x660000+j, 0x3300FF-j, 0xFFFF00-(j<<8), 0x0000FF+(j<<8)-j])
time.sleep(.002) time.sleep(.001)
neo.load([0,0,0,0]) neo.load([0,0,0,0])
@ -76,3 +76,8 @@ if False:
i2c.write_reg(0x76, 0xF4, 0xFA) i2c.write_reg(0x76, 0xF4, 0xFA)
print(i2c.read_reg(0x76, 0xF4)) print(i2c.read_reg(0x76, 0xF4))
if True:
spi = gex.SPI(client, 'spi')
spi.write(0, [0xA1])
print("SPI done.")

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