def start(self):
self._tracer.calls("XBeeXBIB.start()")
# init self._xbee_manager and self._extended_address
# then register ourself with our Xbee manager
XBeeBase.pre_start(self)
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
self._xbee_manager.register_sample_listener(self, self._extended_address,
self.sample_indication)
# Configure node sleep behavior:
sleep_ms = SettingsBase.get_setting(self, "sleep_ms")
awake_time_ms = SettingsBase.get_setting(self, "awake_time_ms")
# The original sample rate is used as the sleep rate:
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(
self._extended_address,
sleep=sleep_ms > 0,
sleep_rate_ms=sleep_ms,
awake_time_ms=awake_time_ms)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DIO0 .. DIO3 for digital input:
for io_pin in ['D0', 'D1', 'D2', 'D3']:
xbee_ddo_cfg.add_parameter(io_pin, 3)
# Turn off LEDs:
for led in LED_IO_MAP:
xbee_ddo_cfg.add_parameter(LED_IO_MAP[led], 0)
# Assert that all pin pull-ups are enabled:
xbee_ddo_cfg.add_parameter('PR', 0x1fff)
# Enable I/O line monitoring on pins DIO0 .. DIO3:
xbee_ddo_cfg.add_parameter('IC', 0xf)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Handle channels subscribed to output their data to our led
# properties:
cm = self._core.get_service("channel_manager")
cp = cm.channel_publisher_get()
for i in range(1, 4):
setting_name = "led%d_source" % i
channel_name = SettingsBase.get_setting(self, setting_name)
if channel_name is not None:
cp.subscribe(channel_name,
(lambda prop: lambda cn: self.update_property(prop, cn))(
"led%d" % i))
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
self._tracer.calls("XBeeRPM.start()")
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
self._xbee_manager.register_sample_listener(self,
self._extended_address,
self.sample_indication)
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DI1 .. DI3 for analog input:
for io_pin in ['D1', 'D2', 'D3']:
xbee_ddo_cfg.add_parameter(io_pin, 2)
# Get the extended address of the device:
default_state = SettingsBase.get_setting(self, 'default_state')
if default_state != 'same':
# Configure pin DI4 for digital output, default state setting:
self.prop_set_power_control(
Sample(0, str(Boolean(default_state, STYLE_ONOFF))))
else:
self.property_set('power_on', Sample(0, UNKNOWN_POWER_STATE))
# Configure the IO Sample Rate:
sample_rate = SettingsBase.get_setting(self, 'sample_rate_ms')
xbee_ddo_cfg.add_parameter('IR', sample_rate)
# new method for mesh health monitoring
self.set_data_update_rate_seconds(sample_rate / 1000)
# Handle subscribing the devices output to a named channel,
# if configured to do so:
power_on_source = SettingsBase.get_setting(self, 'power_on_source')
if power_on_source is not None:
cm = self._core.get_service('channel_manager')
cp = cm.channel_publisher_get()
cp.subscribe(power_on_source, self.update_power_state)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
"""Start the device driver. Returns bool."""
self._tracer.calls("XBeeSerial.start()")
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
self.initialize_xbee_serial()
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
"""Start the device driver. Returns bool."""
self._tracer.calls("XBeeSerial.start()")
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
self.initialize_xbee_serial()
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
self._tracer.calls("XBeeXBR.start()")
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
self._xbee_manager.register_sample_listener(self, self._extended_address,
self._sample_indication)
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DI1 & DI2 for analog input:
for io_pin in ['D1', 'D2']:
xbee_ddo_cfg.add_parameter(io_pin, 2)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Configure the IO Sample Rate:
sample_rate = SettingsBase.get_setting(self, "sample_rate_ms")
# DigiMesh requires at least 'Sleep Compatibility'
# this call will also set IR to sample_rate
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(
self._extended_address,
sleep=False, sleep_rate_ms=sample_rate, awake_time_ms=0)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
self._tracer.calls("XBeeXBR.start()")
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
self._xbee_manager.register_sample_listener(self, self._extended_address,
self._sample_indication)
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DI1 & DI2 for analog input:
for io_pin in ['D1', 'D2']:
xbee_ddo_cfg.add_parameter(io_pin, 2)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Configure the IO Sample Rate:
sample_rate = SettingsBase.get_setting(self, "sample_rate_ms")
# DigiMesh requires at least 'Sleep Compatibility'
# this call will also set IR to sample_rate
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(
self._extended_address,
sleep=False, sleep_rate_ms=sample_rate, awake_time_ms=0)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
self._tracer.calls("XBeeAIO.start()")
# init self._xbee_manager and self._extended_address
# then register ourself with our Xbee manager
XBeeBase.pre_start(self)
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
self._xbee_manager.register_sample_listener(self,
self._extended_address,
self.sample_indication)
# XBeeBase.pre_start(self) enables self.running_indication
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
for io_pin in range(4):
# I/O pin for analog input:
xbee_ddo_cfg.add_parameter('D%d' % (io_pin), 2)
mode = SettingsBase.get_setting(self, self.CHN_MODE_NAME[io_pin])
mode = AIO_MODE_MAP[mode.lower()]
if io_pin % 2 == 1:
last_mode = SettingsBase.\
get_setting(self, 'channel%d_mode' % (io_pin))
last_mode = AIO_MODE_MAP[last_mode.lower()]
if mode == AIO_MODE_DIFFERENTIAL:
if last_mode != AIO_MODE_DIFFERENTIAL:
raise ValueError("Differential mode may only "\
"be set on odd channels.")
elif last_mode == AIO_MODE_DIFFERENTIAL:
# Nothing to do for this paired channel.
continue
elif mode != AIO_MODE_DIFFERENTIAL and \
last_mode == AIO_MODE_DIFFERENTIAL:
raise ValueError("Unable to change mode, paired " \
"channel is configured for "\
"Differential operation.")
if mode == AIO_MODE_CURRENTLOOP:
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin][AIO_LINE_A], 4)
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin][AIO_LINE_B], 4)
elif mode == AIO_MODE_TENV:
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin][AIO_LINE_A], 5)
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin][AIO_LINE_B], 4)
elif mode == AIO_MODE_DIFFERENTIAL:
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin][AIO_LINE_A], 4)
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin][AIO_LINE_B], 5)
xbee_ddo_cfg.add_parameter(
AIO_CONTROL_LINES[io_pin + 1][AIO_LINE_A], 4)
# else: for OFF, do nothing
# TODO: in the future when we support changing the settings
# for this adapter on the fly we would need to do:
#if previous_mode == Differential and new_mode != Differential:
# xbee_ddo_cfg.add_paramseter(
# (AIO_CONTROL_LINES[io_pin+1][AIO_LINE_A], 5))
# # TODO: Set setting for io_pin+1 to TenV Mode
# if adapter is using internal batteries, then configure
# battery-monitor pin and add low_battery channel
if SettingsBase.get_setting(self, "enable_low_battery"):
# configure battery-monitor pin DIO11/P1 for digital input
xbee_ddo_cfg.add_parameter('P1', 3)
# add low_battery channel
self._tracer.info("adapter is using internal batteries... " +
"adding low battery channel")
self.add_property(
ChannelSourceDeviceProperty(name="low_battery", type=bool,
initial=Sample(timestamp=0, value=False),
perms_mask=DPROP_PERM_GET, \
options=DPROP_OPT_AUTOTIMESTAMP))
else:
self._tracer.info("adapter is not using internal batteries.")
# disable the triggered low-battery alarm since it causes problems
# we see the value every time new values are sent anyway
ic = 0
xbee_ddo_cfg.add_parameter('IC', ic)
# Assert input pull-ups
xbee_ddo_cfg.add_parameter('PR', 0x1fff)
# Is the unit meant to sleep or not?
will_sleep = SettingsBase.get_setting(self, "sleep")
# Configure the IO Sample Rate.
#
# This gets a little trickier in cases where the unit is NOT
# in sleep mode, yet the sampling rate is over a minute.
#
# (The max value for IR is 64K and is in milliseconds.
# This ends up being a tad over a minute.
#
# So if we are NOT in sleep mode, and our sample rate
# is over 1 minute, 5 seconds (64K), we will set IR to 0,
# and set up DIA (in the make_request call), to call us back
# when our poll rate is about to trigger.
# self._xbee_manager.get_sleep_block() manages 'IR'
# Enable/disable power output on terminal 6:
power = SettingsBase.get_setting(self, "power")
if power:
xbee_ddo_cfg.add_parameter('p3', 5)
else:
xbee_ddo_cfg.add_parameter('p3', 4)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Setup the sleep parameters on this device:
will_sleep = SettingsBase.get_setting(self, "sleep")
sample_predelay = SettingsBase.get_setting(self, "sample_predelay")
awake_time_ms = (SettingsBase.get_setting(self, "awake_time_ms") +
sample_predelay)
# The original sample rate is used as the sleep rate:
sleep_rate_ms = SettingsBase.get_setting(self, "sample_rate_ms")
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(
self._extended_address,
sleep=will_sleep,
sample_predelay=sample_predelay,
awake_time_ms=awake_time_ms,
sleep_rate_ms=sleep_rate_ms)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
"""Start the device driver. Returns bool."""
self._tracer.calls('WirelessSensor start')
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
# Get the extended address of the device:
self._addr = (self._extended_address, 0xe8, 0xc105, 0x11)
# Retrieve the flag which tells us if we should sleep:
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
xbdm_rx_event_spec = XBeeDeviceManagerRxEventSpec()
xbdm_rx_event_spec.cb_set(self.sample_indication)
xbdm_rx_event_spec.match_spec_set(
(self._extended_address, 0xe8, 0xc105, 0x11),
(True, True, True, True))
self._xbee_manager.xbee_device_event_spec_add(self, xbdm_rx_event_spec)
# Create a callback specification that calls back this driver when
# our device has left the configuring state and has transitioned
# to the running state:
xbdm_running_event_spec = XBeeDeviceManagerRunningEventSpec()
xbdm_running_event_spec.cb_set(self.running_indication)
self._xbee_manager.xbee_device_event_spec_add(self,
xbdm_running_event_spec)
# Define a Network Sleep block.
# This block will NOT send any sleep parameters to the device,
# but instead, will provide a hint to the DIA about how long
# we expect our device to sleep for.
# This is required for long sleeping nodes, as the coordinator
# and all routers on the network need to know these values.
xbee_sleep_cfg = XBeeConfigNetworkSleep(self._extended_address)
sleep_rate = SettingsBase.get_setting(self, self.KEY_SAMPLE_RATE)
self._tracer.debug('pushing sleep config for %d seconds', sleep_rate)
sleep_rate *= 1000
xbee_sleep_cfg.sleep_cycle_set(1, sleep_rate)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# see if there are sensor configurations
self._tracer.debug('loading configuration changes')
#generate configurations as a dictionary of dictionaries, one for global and
#one for each serial number as appropriate
self.configurations = {}
self.addConfiguration(
self.parser.KEY_XMIT_PERIOD,
SettingsBase.get_setting(self, self.parser.KEY_XMIT_PERIOD))
self.addConfiguration(
self.parser.KEY_ALARM_EXIT,
SettingsBase.get_setting(self, self.parser.KEY_ALARM_EXIT))
self.addConfiguration(
self.parser.KEY_TRIES,
SettingsBase.get_setting(self, self.parser.KEY_TRIES))
self.addConfiguration(
self.parser.KEY_HYSTERISIS,
SettingsBase.get_setting(self, self.parser.KEY_HYSTERISIS))
self.addConfiguration(
self.parser.KEY_LOG_PERIOD,
SettingsBase.get_setting(self, self.parser.KEY_LOG_PERIOD))
self.addConfiguration(
self.parser.KEY_HI_VAL1,
SettingsBase.get_setting(self, self.parser.KEY_HI_VAL1))
self.addConfiguration(
self.parser.KEY_HI_TIME1,
SettingsBase.get_setting(self, self.parser.KEY_HI_TIME1))
self.addConfiguration(
self.parser.KEY_LO_VAL1,
SettingsBase.get_setting(self, self.parser.KEY_LO_VAL1))
self.addConfiguration(
self.parser.KEY_LO_TIME1,
SettingsBase.get_setting(self, self.parser.KEY_LO_TIME1))
self.addConfiguration(
self.parser.KEY_HI_VAL2,
SettingsBase.get_setting(self, self.parser.KEY_HI_VAL2))
self.addConfiguration(
self.parser.KEY_HI_TIME2,
SettingsBase.get_setting(self, self.parser.KEY_HI_TIME2))
self.addConfiguration(
self.parser.KEY_LO_VAL2,
SettingsBase.get_setting(self, self.parser.KEY_LO_VAL2))
self.addConfiguration(
self.parser.KEY_LO_TIME2,
SettingsBase.get_setting(self, self.parser.KEY_LO_TIME2))
# Indicate that we have no more configuration to add:
self._tracer.debug('completing configuration')
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
self._tracer.calls("XBeeXBIB.start()")
# init self._xbee_manager and self._extended_address
# then register ourself with our Xbee manager
XBeeBase.pre_start(self)
# Create a callback specification for our device address, endpoint
# Digi XBee profile and sample cluster id:
self._xbee_manager.register_sample_listener(self,
self._extended_address,
self.sample_indication)
# Configure node sleep behavior:
sleep_ms = SettingsBase.get_setting(self, "sleep_ms")
awake_time_ms = SettingsBase.get_setting(self, "awake_time_ms")
# The original sample rate is used as the sleep rate:
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(
self._extended_address,
sleep=sleep_ms > 0,
sleep_rate_ms=sleep_ms,
awake_time_ms=awake_time_ms)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DIO0 .. DIO3 for digital input:
for io_pin in ['D0', 'D1', 'D2', 'D3']:
xbee_ddo_cfg.add_parameter(io_pin, 3)
# Turn off LEDs:
for led in LED_IO_MAP:
xbee_ddo_cfg.add_parameter(LED_IO_MAP[led], 0)
# Assert that all pin pull-ups are enabled:
xbee_ddo_cfg.add_parameter('PR', 0x1fff)
# Enable I/O line monitoring on pins DIO0 .. DIO3:
xbee_ddo_cfg.add_parameter('IC', 0xf)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Handle channels subscribed to output their data to our led
# properties:
cm = self._core.get_service("channel_manager")
cp = cm.channel_publisher_get()
for i in range(1, 4):
setting_name = "led%d_source" % i
channel_name = SettingsBase.get_setting(self, setting_name)
if channel_name is not None:
cp.subscribe(
channel_name,
(lambda prop: lambda cn: self.update_property(prop, cn))(
"led%d" % i))
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
def start(self):
self._tracer.calls("XBeeDIO.start()")
# init self._xbee_manager and self._extended_address
# then register ourself with our Xbee manager
XBeeBase.pre_start(self)
cm = self._core.get_service("channel_manager")
cp = cm.channel_publisher_get()
self._xbee_manager.register_sample_listener(self, self._extended_address,
self.sample_indication)
# XbeeBase enables self.running_indication
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DIO0 .. DIO3 for digital input:
pr = 0xe1 # DIO0-3 pullups off, all else on
ic = 0
for io_pin in range(4):
dir = SettingsBase.get_setting(self, 'channel%d_dir' % \
(io_pin + 1))
dir = dir.lower()
# Enable input on all pins:
xbee_ddo_cfg.add_parameter(CONTROL_LINES[io_pin][IN], 3)
# Build our change detection mask for all io pins:
ic |= 1 << INPUT_CHANNEL_TO_PIN[io_pin]
if dir == 'in':
# Disable sinking driver output:
xbee_ddo_cfg.add_parameter(CONTROL_LINES[io_pin][OUT], 4)
elif dir == 'out':
# Create the output channel for this IO pin:
self.add_property(
ChannelSourceDeviceProperty(
name=self.CHN_OUTPUT_NAME[io_pin], type=Boolean,
initial=Sample(timestamp=0, value=Boolean(False),
unit='bool'),
perms_mask=(DPROP_PERM_GET | DPROP_PERM_SET),
options=DPROP_OPT_AUTOTIMESTAMP,
set_cb=lambda sample, io=io_pin: \
self.set_output(sample, io)))
# If set, subscribe to the channel that drives our
# output logic:
source = SettingsBase.get_setting(self, 'channel%d_source'
% (io_pin + 1))
if len(source):
cp.subscribe(source,
lambda chan, io=io_pin: \
self.update(chan, io))
self._tracer.debug("Linking DOUT %d to channel %s", io_pin+1, source)
# If not set, attempt to grab the default output setting,
# and use that instead.
else:
out = SettingsBase.get_setting(self, 'channel%d_default'
% (io_pin + 1))
if out == True:
self._tracer.debug("Setting default output to High")
xbee_ddo_cfg.add_parameter(CONTROL_LINES[io_pin][OUT],
5)
elif out == False:
self._tracer.debug("Setting default output to Low")
xbee_ddo_cfg.add_parameter(CONTROL_LINES[io_pin][OUT],
4)
else:
self._tracer.debug("Not setting default output value")
# if adapter is using internal batteries, then configure
# battery-monitor pin and add low_battery channel
if SettingsBase.get_setting(self, "enable_low_battery"):
# configure battery-monitor pin DIO11/P1 for digital input
xbee_ddo_cfg.add_parameter('P1', 3)
# add low_battery channel
self._tracer.debug("Adapter is using internal batteries... " +
"adding low_battery channel")
self.add_property(
ChannelSourceDeviceProperty(name="low_battery", type=bool,
initial=Sample(timestamp=0, value=False),
perms_mask=DPROP_PERM_GET,
options=DPROP_OPT_AUTOTIMESTAMP))
else:
self._tracer.debug("Adapter is not using internal batteries.")
# Enable I/O line monitoring on pins DIO0 .. DIO3 &
# enable change detection on DIO11:
#
# 0x 8 0 0
# 1000 0000 0000 (b)
# DDDD DDDD DDDD
# IIII IIII IIII
# OOOO OOOO OOOO
# 1198 7654 3210
# 10
#
xbee_ddo_cfg.add_parameter('IC', ic)
# Assert input pull-ups
xbee_ddo_cfg.add_parameter('PR', 0x1fff)
# self._xbee_manager.get_sleep_block() manages 'IR'
# Enable/disable power output on terminal 6:
power = SettingsBase.get_setting(self, "power")
if power:
xbee_ddo_cfg.add_parameter('p3', 5)
else:
xbee_ddo_cfg.add_parameter('p3', 4)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Setup the sleep parameters on this device:
will_sleep = SettingsBase.get_setting(self, "sleep")
sample_predelay = SettingsBase.get_setting(self, "sample_predelay")
awake_time_ms = (SettingsBase.get_setting(self, "awake_time_ms") +
sample_predelay)
# The original sample rate is used as the sleep rate:
sleep_rate_ms = SettingsBase.get_setting(self, "sample_rate_ms")
if sleep_rate_ms == 0 and will_sleep:
# bounding sleep rate in when sampling is disabled and
# sleeping is enabled
sleep_rate_ms = CYCLIC_SLEEP_MIN_MS
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(\
self._extended_address,
sleep=will_sleep,
sample_predelay=sample_predelay,
awake_time_ms=awake_time_ms,
sleep_rate_ms=sleep_rate_ms)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
self._xbee_manager.xbee_device_configure(self)
return True
def start(self):
self._tracer.calls("XBeeSensor.start()")
# init self._xbee_manager and self._extended_address
# register ourself with our Xbee manager
# create the self.running_indication callback
XBeeBase.pre_start(self)
# Retrieve the flag which tells us if we should sleep:
# Create a callback specification for our device address
self._xbee_manager.register_sample_listener(self,
self._extended_address,
self.sample_indication)
# Create a DDO configuration block for this device:
xbee_ddo_cfg = XBeeConfigBlockDDO(self._extended_address)
# Configure pins DI1 .. DI3 for analog input:
for io_pin in ['D1', 'D2', 'D3']:
xbee_ddo_cfg.add_parameter(io_pin, 2)
# Configure battery-monitor pin DIO11/P1 for digital input:
xbee_ddo_cfg.add_parameter('P1', 3)
# Enable change detection on DIO11:
#
# 0x 8 0 0
# 1000 0000 0000 (b)
# DDDD DDDD DDDD
# IIII IIII IIII
# OOOO OOOO OOOO
# 1198 7654 3210
# 10
#
xbee_ddo_cfg.add_parameter('IC', 0x800)
if SettingsBase.get_setting(self, "humidity_present"):
# Get gateway module_id, universal to all nodes on the network:
gw_dd = self._xbee_manager.xbee_device_ddo_get_param(
None, 'DD', use_cache=True)
module_id, product_id = parse_dd(gw_dd)
# Re-program DD value to set sensor type to /L/T/H:
device_dd = format_dd(module_id, PROD_DIGI_XB_SENSOR_LTH)
xbee_ddo_cfg.add_parameter('DD', device_dd)
# Configure the IO Sample Rate:
# Clip sample_rate_ms to the max value of IR:
sample_rate_ms = SettingsBase.get_setting(self, "sample_rate_ms")
sample_rate_ms = min(sample_rate_ms, 0xffff)
xbee_ddo_cfg.add_parameter('IR', sample_rate_ms)
# Register this configuration block with the XBee Device Manager:
self._xbee_manager.xbee_device_config_block_add(self, xbee_ddo_cfg)
# Setup the sleep parameters on this device:
will_sleep = SettingsBase.get_setting(self, "sleep")
sample_predelay = SettingsBase.get_setting(self, "sample_predelay")
awake_time_ms = (SettingsBase.get_setting(self, "awake_time_ms") +
sample_predelay)
if will_sleep:
# Sample time pre-delay, allow the circuitry to power up and
# settle before we allow the XBee to send us a sample:
xbee_ddo_wh_block = XBeeConfigBlockDDO(self._extended_address)
xbee_ddo_wh_block.apply_only_to_modules((
MOD_XB_ZB,
MOD_XB_S2C_ZB,
))
xbee_ddo_wh_block.add_parameter('WH', sample_predelay)
self._xbee_manager.xbee_device_config_block_add(
self, xbee_ddo_wh_block)
# The original sample rate is used as the sleep rate:
sleep_rate_ms = SettingsBase.get_setting(self, "sample_rate_ms")
# new method for mesh health monitoring
self.set_data_update_rate_seconds(sleep_rate_ms / 1000)
# not including sample_predelay here... specially configured above
xbee_sleep_cfg = self._xbee_manager.get_sleep_block(
self._extended_address,
sleep=will_sleep,
sleep_rate_ms=sleep_rate_ms,
awake_time_ms=awake_time_ms)
self._xbee_manager.xbee_device_config_block_add(self, xbee_sleep_cfg)
# we've no more to config, indicate we're ready to configure.
return XBeeBase.start(self)
