desc = 'A protocol for communication between computers and displays.'
longdesc = ''
author = 'Bert Vermeulen <bert@biot.com>'
+ email = '<bert@biot.com>'
license = 'gplv3+'
inputs = ['i2c']
outputs = ['ddc']
+ probes = []
+ options = {}
annotations = [
['Byte stream', 'DDC byte stream as read from display.'],
]
def start(self, metadata):
self.out_ann = self.add(srd.OUTPUT_ANN, 'ddc')
- def decode(self, start_sample, end_sample, i2c_data):
+ def decode(self, ss, es, data):
try:
- cmd, data, ack_bit = i2c_data
+ cmd, data, ack_bit = data
except Exception as e:
raise Exception('malformed I2C input: %s' % str(e)) from e
if self.state is None:
# Wait for the DDC session to start.
- if cmd in ('START', 'START_REPEAT'):
+ if cmd in ('START', 'START REPEAT'):
self.state = 'start'
elif self.state == 'start':
- if cmd == 'ADDRESS_READ' and data == 80:
+ if cmd == 'ADDRESS READ' and data == 80:
# 80 is the I2C slave address of a connected display,
# so this marks the start of the DDC data transfer.
self.state = 'transfer'
# Got back to the idle state.
self.state = None
elif self.state == 'transfer':
- if cmd == 'DATA_READ':
+ if cmd == 'DATA READ':
# There shouldn't be anything but data reads on this
# address, so ignore everything else.
- self.put(start_sample, end_sample, self.out_ann,
- [0, ['0x%.2x' % data]])
+ self.put(ss, es, self.out_ann, [0, ['0x%.2x' % data]])