processing a published valued on a subscribed topic is currently running
in a task that is not the task executing the main loop(). that's because
the espMqttClient(Secure) was constructed without arguments, which
selects the constructor with two arguments priority and core, both of
which have default values. that constructor selects
espMqttClientTypes::UseInternalTask::YES, causing a task to be created
in which context the MQTT client loop is executed.
MQTT subscribers assume they are running in the same context as the main
loop(). most code assumes exactly that. as the scheduler is preemptive
and very little (none at all?) code is interlocked, we have to make sure
to meet the programmer's expectations.
this changeset calls the MQTT client loop in the context of the main
loop() and enforces the use of espMqttClientTypes::UseInternalTask::NO.
* PowerMeter: gracefully handle non-float MQTT values
* PowerMeter: update _lastPowerMeterUpdate conservatively
update the timestampt only if the topic actually matched any
subscription and if the value could be parsed as a float.
* PowerMeter: unsubscribe before subscribing
* PowerMeter: organize subscriptions in a map
this allows for a slightly more elegant code and reduced amount of code
overall.
* PowerMeter: clean up header
* move private methods to private section of class declaration.
* remove unused member variable.
Make the administrative accesspoint timeout configurable. The default
value is 3 minutes, values from 0-99999 are possible, where 0 means
infinite (no timeout).
Signed-off-by: Martin Dummer <martin.dummer@gmx.net>
* DPL: implement verbose logging switch
* MQTT: implement verbose logging switch
* power meter: implement verbose logging switch
* Hoymiles lib: implement verbose logging switch
* cpp linting: "final" makes "virtual" and "override" redundant
... however, using only "final" is not as verbose.
When OpenDTU has a Pylontech CAN Bus Battery connected and enabled, this
patch adds the discovery routine for Home Assistant
Signed-off-by: Martin Dummer <martin.dummer@gmx.net>
if the new calculated power limit is below the minimum power limit
setting, the inverter is shut down. the shutdown() function is called
every time this condition is detected, which is also true if the
inverter is kept shut down for longer. that happens while the battery
is charging in particular (solar passthrough off). there are other
cases.
in such cases we still want to get into the DPL status "stable". to be
able to determine this stable state, we must know if the call to
shutdown did actually initiate a shutdown or if the inverter is already
shut down.
we then can forward this "changed" or "not changed" info up the call
chain, where the loop() will know that the system is actually stable.
* fix another fixable "passtrough" typo
the typo in the config's identifier is not changed to preserve
compatibility while not spending the effort to migrate the setting.
* webapp language: prefer SoC over SOC
* DPL: implement solar passthrough loss factor
in (full) solar passthrough mode, the inverter output power is coupled
to the charge controler output power. the inverter efficiency is already
accounted for. however, the battery might still be slowly discharged for
two reasons: (1) line losses are not accounted for and (2) the inverter
outputs a little bit more than permitted by the power limit.
this is undesirable since the battery is significantly drained if solar
passthrough is active for a longer period of time. also, when using full
solar passthrough and a battery communication interface, the SoC will
slowly degrade to a value below the threshold value for full solar
passthrough. this makes the system switch from charging the battery
(potentially rapidly) to discharging the battery slowly. this switch
might happen in rather fast succession. that's effectively
trickle-charging the battery.
instead, this new factor helps to account for line losses between the
solar charge controller and the inverter, such that the battery is
actually not involved in solar passthrough. the value can be increased
until it is observed that the battery is not discharging when solar
passthrough is active.
In Home Assistant, when Home Assistant MQTT-Auto-Discovery is active,
almost all Sensors of the auto-discovered Victron device in Home
Assistant become "unavailable" after a short time - except those
Sensors with frequent changes like battery voltage or panel voltage.
This patch introduces regular mqtt updates for all VE.Direct sensors
when MQTT-Auto-Discovery is enabled.
Signed-off-by: Martin Dummer <martin.dummer@gmx.net>
* DPL: wait for valid time information
we know that the Hoymiles library refuses to send any message to any
inverter until the system has valid time information. until then we can
do nothing, not even shutdown the inverter.
* DPL: wait for device info to be ready
a calculated power limit will always be limited to the reported
device's max power. that upper limit is only known after the first
DevInfoSimpleCommand succeeded. wait for that information to be
available.
* DPL: fix initial calculcation backoff
if the calculation backoff is initialized to zero, the backoff will be
doubled to zero until a new, different power limit was calculated for
the first time. this lead to the DPL recalculating a power limit
hundreds of times without a backoff after startup.
* VE.Direct: remove polling interval
the polling interval was meant to limit the amount of MQTT updates.
however, that is already controlled by the global MQTT publish interval.
the removed interval was instead used to limit polling of the VE.Direct
UART for incoming data.
the Victron device sends data unsolicited. the VeDirectFrameHandler does
not implement any polling mechanism. no data is ever sent to the Victron
device.
what the removed polling interval did was cause a buffer overrun of the
HardwareSerial class, since the incoming data was not processed in time.
so every five seconds, we read a whole valid VE.Direct frame, plus some
old data, which was not a whole frame, leading to VE.Direct error
messages to pop up.
with the polling interval removed, no framing errors are reported, and
instead we gain new data from the charge controller approximately ever
two seconds -- for free.
* VE.Direct: change texts to correct VE.Direct capital letters
* VE.Direct: improve "UpdatesOnly" switch labels
especially since the publish interval setting is gone, the label makes
it hard to comprehend what the switch does. update the texts to better
explain what the switch is used for.
use the same text on the VE.Direct info view.
* VE.Direct: use StatusBadge on info view
there were custom badges to indicate the VE.Direct settings. replace
those by the common StatusBadge to make then look the same as the other
badged on the info views.
a new status is needed to communicate that no update was sent to the
inverter because its power limit is still valid. in this case,
calculating a new power limit is delayed by an exponentially increasing
backoff. the maximum backoff time is ~1s, which is still plenty fast.
the backoff is actually necessary for another reason: at least
currently, a lot of debug messages are printed to the console. printing
all that information in every DPL loop() is too much.
the unconditional solar passthrough mode, configured using MQTT, works
differently than the normal mode of operation. it is also independent
from the power meter reading. if this mode is active, a shortcut is
taken to a function that implements the actions for this mode. this is
convenient since we don't have to consider special cases in the code
that handles normal mode of operation.
the DPL already took care to shut down the inverter if anything fishy
was going on, mainly to make sure that the battery is not drained.
however, some cases were missed:
* if the configuration changed such that another inverter is now
targeted, the one the DPL controlled previously was not shut down.
* if the configuration changed such that another inverter (different
serial number) was configured at the same index, the previous one
was not shut down.
this change corrects these problems by making the DPL keep a copy of the
shared_ptr to the inverter. the shared_ptr is only released once the DPL
shut the respective inverter down.
this implementation checks all requirements for a new power limit to be
calculated, one after the other. if any requirement is not met, a
respective status is announced.
status messages are communicated on the (serial) console. these can also
be displayed easily on the web app in the future. the status texts
explain clearly what the DPL is currently doing, which aids
understanding how the DPL works. the status is only announced if it
changes, or after a fixed interval.
as each requirement is checked individually, the code readability is
improved as well. previously, all the respective conditions had to be
checked as well, but the statements were more complex.
the DPL loop is now executed with high frequency, i.e., it does not wait
for a fixed timespan to pass before checking requirements. it always
aborts on the first unmet requirement. this should improve responsiveness,
as the DPL checks all requirements more often.
the DPL now waits for all power commands and power limit updates to
complete. when that is the case, a settling time elapses. after the
settling phase, the DPL waits for a new update from the inverter and
from the power meter. now it can be assumed that the values are in sync.
it then makes sense to calculate a new power limit immediately, which
the DPL then does.
the defaults for solar passthrough voltage thresholds shall be floats,
so the user can store float values to the config. otherwise, float
values can and will be stored, but when reading them, the defaults will
be applied as the defaults are of an incompatible type.
there is no need to assume and hardcode a fixed efficiency for the
Victron solar charger. the charger reports the voltage and current at
its battery terminal, which can be used to calculate the charger's
actual power output.
the fallback to 100% for the efficiency of the Hoymiles inverter, in
case it is not producing power, is too optimistic. this commit proposes
to use 96.7% as the efficiency for that case, which is the peak
efficiency for many (all?) Hoymiles inverters as per datasheet. that
value should be closer to the real efficiency that will be achieved once
the inverter is turned on.
In addition to the cyclic query of the power meters, they will be queried on demand when total power is requested and last update is older than 1 second.
Webinterface change to set full solar passthrough values
Adding webapi and config changes to enable full solar passthrough over certain battery Soc
inital version of full solar passthrough in power limiter
Passthrough mode can be enabled via MQTT
translations
re-enable comment
remove unused variable
