Progress Trace
Gather useful information for debugging and troubleshooting.
Progress tracing in NSO provides developers with useful information for debugging, diagnostics, and profiling. This information can be used both during development cycles and after the release of the software. The system overhead for progress tracing is usually negligible.
When a transaction or action is applied, NSO emits progress events. These events can be displayed and recorded in a number of different ways. The easiest way is to pipe an action to details in the CLI.
As seen by the details output, all events are recorded with a timestamp and in some cases with the duration. All phases of the transaction, service, and device communication are printed.
Some actions (usually those involving device communication) also produce progress data.
Configuring Progress Trace
The pipe details in the CLI are useful during development cycles of for example a service, but not as useful when tracing calls from other northbound interfaces or events in a released running system. Then it's better to configure a progress trace to be outputted to a file or operational data which can be retrieved through a northbound interface.
Unhide Progress Trace
The top-level container progress
is by default invisible due to a hidden attribute. To make progress
visible in the CLI, two steps are required:
First, the following XML snippet must be added to
ncs.conf
:Then, the
unhide
command is used in the CLI session:
Log to File
Progress data can be outputted to a given file. This is useful when the data is to be analyzed in some third-party software like a spreadsheet application.
The file can be formatted as a comma-separated values file defined by RFC 4180 or in a pretty printed log file with each event on a single line.
The location of the file is the directory of /ncs-config/logs/progress-trace/dir
in ncs.conf
.
Log as Operational Data
When the data is to be retrieved through a northbound interface, it is more useful to output the progress events as operational data.
This will log non-persistent operational data to the /progress:progress/trace/event
list. As this list might grow rapidly there is a maximum size of it (defaults to 1000 entries). When the maximum size is reached, the oldest list entry is purged.
Using the /progress:progress/trace/purge
action the event list can be purged.
Log as Notification Events
Progress events can be subscribed to as Notifications events. See NOTIF API for further details.
Verbosity
The verbosity
parameter is used to control the level of output. The following levels are available:
Level | Description |
---|---|
| Informational messages that highlight the progress of the system at a coarse-grained level. Used mainly to give a high-level overview. This is the default and the lowest verbosity level. |
| Detailed informational messages from the system. The various service and device phases and their duration will be traced. This is useful to get an overview of where time is spent in the system. |
| Very detailed informational messages from the system and its internal operations. |
| The highest verbosity level with fine-grained informational messages usable for debugging the system and its internal operations. Internal system transactions as well as data kicker evaluation and CDB subscribers will traced. Setting this level could result in a large number of events being generated. |
Additional debug tracing can be turned on for various parts. These are consciously left out of the normal debug level due to the high amount of output and should only be turned on during development.
Using Filters
By default, all transaction and action events with the given verbosity level will be logged. To get a more selective choice of events, filters can be used.
The context filter can be used to only log events that originate through a specific northbound interface. The context is either one of netconf
, cli
, webui
, snmp
, rest
, system
or it can be any other context string defined through the use of MAAPI.
Report Progress Events from User Code
API methods to report progress events exist for Python, Java, Erlang, and C.
Python ncs.maapi
Example
ncs.maapi
ExampleFurther details can be found in the NSO Python API reference under ncs.maapi.start_progress_span
and ncs.maapi.progress_info
.
Java com.tailf.progress.ProgressTrace
Example
com.tailf.progress.ProgressTrace
ExampleFurther details can be found in the NSO Java API reference under com.tailf.progress.ProgressTrace
and com.tailf.progress.Span
.
Correlating with OpenTelemetry Traces
OpenTelemetry is an observability SDK that instruments your code and libraries to collect telemetry data. NSO 6.3 and later by default generate span IDs that are compatible with W3C Trace Context and OpenTelemetry.
To simplify correlation of telemetry data when your NSO code uses libraries that are instrumented with OpenTelemetry, you can propagate parent span information from NSO to those libraries. To make the most use of this data, you need to export OpenTelemetry and NSO spans to a common system. You can export NSO span data with the Observability Exporter package.
To set up the trace context for OpenTelemetry:
Create a new NSO span to obtain a span ID
span_id
.Create an OpenTelemetry span with the
span_id
.Set the OpenTelemetry span as the current span for the OpenTelemetry
Context
of the execution unit.
The following listing shows the code necessary to achieve this in Python. It requires the opentelemetry-api package.
The code uses OpenTelemetry tracing from the service create callback, however, you can use the same approach in any Maapi session.
For example, if your code uses Python requests package, you can easily instrument it by adding an additional opentelemetry-instrumentation-requests package:
If you now invoke requests from service code as shown in the following snippet, it will produce OpenTelemetry spans, where top-most spans have parent span id set to the service span produced by NSO, as well as a matching trace ID.
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