5.2.5. LEM DCBM 400/600

Link to the module’s reference. Module implementing the LEM DCBM 400/600 power meter driver adapter via HTTP/HTTPS.

5.2.5.1. Description

The module consists of a single main implementation that serves the powermeter interface. Requests/commands to the meter are translated and forwarded to the device via HTTP/HTTPS.

5.2.5.1.1. Initialization

On module initialization, the driver fetches the device’s metric id from the /v1/status api. Consequently, this also ensures connectivity to the device. The initialization will fail (with a thrown exception) in case this cannot be established (possibly after a limited amount of retries).

Furthermore, at initialization the initial time sync setup is scheduled after a 2 minute waiting time (which is then executed during the module’s “ready” thread loop), cf. also the notes on time synchronization below.

5.2.5.1.2. Variable Powermeter

Publication of the powermeter var is done with approx. frequency 1/second. This fetches the current livemeasure values from the device’s /v1/livemeasure endpoint and injects the meter id as determined at initialization.

5.2.5.1.3. Command start_transaction

A start_transaction command is directly forwarded via a POST to the /v1/legal endpoint with a copy of the transaction request as payload (up to renaming of attributes). It returns true, if the device (possibly after a limited amount of retries) returns a success response with a valid payload that indicates a running transaction status, otherwised it returns false.

5.2.5.1.4. Command stop_transaction

A stop_transaction command results into two requets to the devie.

First, a PUT to the /v1/legal endpoint stops the transaction.

Then, a call to the /v1/ocmf/ endpoint fetches the OCMF report for the provided transaction id. Note that this always fetches the report of the last transaction with this id (in case if multiple transactions with the same id had been running).

If both requests are successful (possibly after a limited amount of retries), the returned OCMF string is forward 1:1.

In case of an error, an empty string is returned.

5.2.5.2. Module Configuration

The module has the following configuration parameters:

5.2.5.2.1. ip_address

IP address (or DNS/Host name) of the device.

5.2.5.2.2. port (optional)

Port used to reach the device. Defaults to 80. Note that the default value of 80 is used independent on whether TLS is enabled or not (which is in coherence with the device`s behavior).

5.2.5.2.3. meter_tls_certificate (optional)

The meter’s TLS X.509 certificate in PEM format. If provided, TLS will be used for communication with the device. See notes on TLS below.

5.2.5.2.4. NTP Settings (optional)

If NTP servers are supposed to be used for time sync by the device, those can provided via - ntp_server_1_ip_addr, ntp_server_1_port for the first NTP server, and - ntp_server_2_ip_addr, ntp_server_2_port for the first NTP server.

If the first server is provided, NTP will be activated on module initialization. Otherwise, a regular time sync with the system time will be executed.

Note that the wording “ip_address” follows the operational manual (cf. 4.2.3. of the Communication protocols manual, see references below). However, according to this manual DNS names are allowed, too.

5.2.5.2.5. Resilience Settings (optional)

The following optional settings may be set to adapt the resilience behavior behavior of the module:

  • resilience_initial_connection_retries and resilience_initial_connection_retry_delay define the number of attempted

retries and delay inbetween in milliseconds in case of an error (failed connection or unexpected response from the device) during the module initialization. This potentially delays module initialization, but may prevent a module failure at startup (e.g., if the device is not ready yet). - resilience_transaction_request_retries and resilience_transaction_request_retry_delay similarly define the according values but for connection attempts during a transaction start or stop command handling. In order to prevent a greater command return delay (and since the device is assumed to be set up and running when transactions are started), default values are considerably lower than the ones for initialization.

5.2.5.3. Notes

5.2.5.3.1. Time Sync

The powermeter device needs to be regularly time synced in order to function properly (cf. The module is capable of performing regular syncs with the system time, or – alternatively – allows to setup NTP servers (cf. the configuration parameters above).

If no NTP server is provided, a sync right before each transaction start is ensured in order to allow for the maximum possible transaction duration of 48 hours. Cf. the Operation Manual section 7.8.1 for more details.

Also note the device’s manual suggests a start-up time of 2 minutes before settings (such as time sync) should be persisted (cf. the Communication protocols manual section 4). This is payed regard to in the module.

5.2.5.3.2. Error Handling / Resilience

In general responses are checked for a valid response code and body. In case of validation errors or an http error, requests are retried to provide some resilience.

For the initialization requests, 25 retry attempts are made with a 10 second delay. For start/stop transaction requests, 3 retry attempts with a 200ms delay are made.

5.2.5.3.3. TLS Notes & Limitations

The device brings its own self-signed certificate. Since there is no manufacturer root CA, this certificate must be provided in order to establish a reasonable TLS connection. Note that the provided certificate uses a private key of 1024bit length, which in general is considered vulnerable.

curl 'http://<DEVICE ADDRESS>:<DEVICE PORT>/v1/certificate'

TLS can be enabled via:

curl --location --request PUT 'https://<DEVICE ADDRESS>:<DEVICE PORT>/v1/settings' \
--header 'Content-Type: application/json' \
--data '{
    "http": {
        "tls_on": true
    }
}'