AndroidAPS/pump/combov2
Milos Kozak 2863d5c06c
New Crowdin updates (#2431)
* New translations strings.xml (Portuguese, Brazilian)

* New translations objectives.xml (Portuguese, Brazilian)

* New translations strings.xml (Portuguese, Brazilian)

* New translations strings.xml (Italian)

* New translations protection.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations exam.xml (Italian)

* New translations objectives.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations exam.xml (Italian)

* New translations objectives.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations oh_strings.xml (Italian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Bulgarian)

* New translations strings.xml (Norwegian)

* New translations protection.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations validator.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations strings.xml (Norwegian)

* New translations exam.xml (Russian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations exam.xml (Italian)

* New translations objectives.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations exam.xml (Italian)

* New translations objectives.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations exam.xml (Italian)

* New translations objectives.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations strings.xml (Italian)

* New translations objectives.xml (Italian)

* New translations strings.xml (Italian)
2023-02-26 10:44:12 +01:00
..
comboctl comboctl-main: Use the standard bolus' total amount as its immediate amount 2023-02-09 18:50:27 +01:00
src/main New Crowdin updates (#2431) 2023-02-26 10:44:12 +01:00
build.gradle combov2: Integrate comboctl unit tests 2022-12-05 20:43:48 +01:00
README.md combov2: Add note about differences in AndroidManifest.xml 2023-01-02 19:21:26 +01:00

Overview over combov2's and ComboCtl's architecture

ComboCtl is the core driver. It uses Kotlin Multiplatform and is written in a platform agnostic way. The code is located in comboctl/, and is also available in [its own separate repository] (https://github.com/dv1/ComboCtl). That separate repository is kept in sync with the ComboCtl copy in AndroidAPS as much as possible, with some notable changes (see below). "combov2" is the name of the AndroidAPS driver. In short: combov2 = ComboCtl + extra AndroidAPS integration code.

Directory structure

The directory structure of the local ComboCtl itself is:

  • comboctl/src/commonMain/ : The platform agnostic portion of ComboCtl. The vast majority of ComboCtl's logic is contained there.
  • comboctl/src/androidMain/ : The Android specific code. This in particular contains implementations of the Bluetooth interfaces that are defined in commonMain/.
  • comboctl/src/jvmTest/ : Unit tests. This subdirectory is called jvmTest because in the ComboCtl repository, there is also a jvmMain/ subdirectory, and the unit tests are run with the JVM.

The AndroidAPS specific portion of the driver is located in src/. This connects ComboCtl with AndroidAPS. In particular, this is where the ComboV2Plugin class is located. That's the main entrypoint for the combov2 driver plugin.

Basic description of how ComboCtl communicates with the pump

ComboCtl uses Kotlin coroutines. It uses [the Default dispatcher](https://kotlinlang. org/api/kotlinx.coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-dispatchers/-default.html), with [a limitedParallelism](https://kotlinlang.org/api/kotlinx. coroutines/kotlinx-coroutines-core/kotlinx.coroutines/-coroutine-dispatcher/limited-parallelism.html) constraint to prevent actual parallelism, that is, to not let coroutine jobs run on multiple threads concurrently. Coroutines are used in ComboCtl to greatly simplify the communication steps, which normally require a number of state machines to be implemented manually. Stackless coroutines like Kotlin's essentially are automatically generated state machines under the hood, and this is what they are used for here. Enabling parallelism is not part of such a state machine. Furthermore, communication with the Combo does not benefit from parallelism.

The communication code in ComboCtl is split in higher level operations (in its Pump class) and lower level ones (in its PumpIO class). Pump instantiates PumpIO internally, and focuses on implementing functionality like reading basal profiles, setting TBRs etc. PumpIO implements the building blocks for these higher level operations. In particular, PumpIO has an internal coroutine scope that is used for sending data to the Combo and for running a "heartbeat" loop. That "heartbeat" is a message that needs to be regularly sent to the Combo (unless other data is sent to the Combo in time, like a command to press a button). If nothing is sent to a Combo for some time, it will eventually disconnect. For this reason, that heartbeat loop is necessary.

PumpIO also contains the code for performing the pump pairing.

Going further down a level, TransportLayer implements the IO code to generate packets for the Combo and parse packets coming from the Combo. This includes code for authenticating outgoing packets and for checking incoming ones. TransportLayer also contains the IO subclass, which actually transfers packets to and receives data from the Combo.

One important detail to keep in mind about the IO class is that it enforces a packet send interval of 200 ms. That is: The time between packet transmission is never shorter than 200 ms (it is OK to be longer). The interval is important, because the Combo has a ring buffer for the packet it receives, and transmitting packets to the Combo too quickly causes an overflow and a subsequent error in the Combo, which then terminates the connection.

The Combo can run in three modes. The first one is the "service" mode, which is only briefly used for setting up the connection. Immediately after the connection is established, the pump continues in the "command" or "remote terminal" (abbr. "RT") mode. The "command" mode is what the remote control of the Combo uses for its direct commands (that is, delivering bolus and retrieving the latest changes / activities from the history). The "remote terminal" mode replicates the LCD on the pump itself along with the 4 Combo buttons.

Only a few operations are possible in the command mode. In particular, the driver uses the bolus delivery command from the command mode, the command to retrieve a history delta, and the command for getting the pump's current date and time. But everything else (getting basal profile, setting TBR, getting pump status...) is done in the remote terminal mode, by emulating a user pressing buttons. This unfortunately means that these operations are performed slowly, but there is no other choice.

Details about long-pressing RT buttons

As part of operations like reading the pump's profile, an emulated long RT button press is sometimes used. Such long presses cause more rapid changes compared to multiple short button presses. A button press is "long" when the emulated user "holds down" the button, while a short button press equals pressing and immediately releasing the emulated button.

The greater speed of long button presses comes with a drawback though: "Overshoots" can happen. For example, if long button pressing is used for adjusting a quantity on screen, then the quantity may still get incremented/decremented after the emulated user "released" the button. It is therefore necessary to check the quantity on screen, and finetune it with short button presses afterwards if necessary.

Idempotent and non-idempotent high level commands

A command is idempotent if it can be repeated if the connection to the pump was lost. Most commands are idempotent. For example, reading the basal profile can be repeated if during the initial basal profile retrieval the connection was lost (for example because the user walked away from the pump). After a few attempts to repeat the command, an error is produced (to avoid an infinite loop).

Currently, there is only one non-idempotent command: Delivering a bolus. This one cannot be repeated, otherwise there is a high risk of infusing too much insulin. Instead, in case of a connection failure, the delivering bolus command fails immediately and is not automatically attempted again.

Automatic datetime adjustments and timezone offset handling

ComboCtl automatically adjusts the date and time of the Combo. This is done through the RT mode, since there is no command-mode command to set the current datetime (but there is one for getting the current datetime). But since the Combo cannot store a timezone offset (it only stores localtime), the timezone offset that has been used so far is stored in a dedicated field in the pump state store that ComboCtl uses. DST changes and timezone changes can be tracked properly with this logic.

The pump's current datetime is always retrieved (through the command mode) every time a connection is established to it, and compared to the system's current datetime. If these two differ too much, the pump's datetime is automatically adjusted. This keeps the pump's datetime in sync.

Notes about how TBRs are set

TBRs are set through the remote terminal mode. The driver assumes that the Combo is configured to use 15-minute TBR duration steps sizes and a TBR percentage maximum of 500%. There is code in the driver to detect if the maximum is not set to 500%. If AndroidAPS tries to set a percentage that is higher than the actually configured maximum, then eventually, an error is reported.

⚠️ The duration step size cannot be detected by the driver. The user must make sure that the step size is configured to 15 minutes.

Pairing with a Combo and the issue with pump queue connection timeouts

When pairing, the pump queue's internal timeout is likely to be reached. Essentially, the queue tries to connect to the pump right after the driver was selected in the configuration. But a connection cannot be established because the pump is not yet paired.

When the queue attempts to connect to the pump, it "thinks" that if the connect procedure does not complete after 120 seconds, then the driver must be stuck somehow. The queue then hits a timeout. The assumption about 120s is correct if the Combo is already paired (a connection should be set up in far less time than 120s). But if it is currently being paired, the steps involved can take about 2-3 minutes.

For this reason, the driver automatically requests a pump update - which connects to the pump - once pairing is done.

Changes to ComboCtl in the local copy

The code in comboctl/ is ComboCtl minus the jvmMain/ code, which contains code for the Linux platform. This includes C++ glue code to the BlueZ stack. Since none of this is useful to AndroidAPS, it is better left out, especially since it consists of almost 9000 lines of code.

Also, the original comboctl/build.gradle.kts files is replaced by comboctl/build.gradle, which is much simpler, and builds ComboCtl as a kotlin-android project, not a Kotlin Multiplatform one. This simplifies integration into AndroidAPS, and avoids multiplatform problems (after all, Kotlin Multiplatform is still marked as an alpha version feature).

The comboctl/src/androidMain/AndroidManifest.xml file also differs in that the ComboCtl version contains package="info.nightscout.comboctl.android" in its <manifest> tag, while the AndroidAPS version doesn't.

When updating ComboCtl, it is important to keep these differences in mind.

Differences between the copy in comboctl/ and the original ComboCtl code must be kept as little as possible, and preferably be transferred to the main ComboCtl project. This helps with keeping the comboctl/ copy and the main project in sync since transferring changes then is straightforward.