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everything-you-wanted-to-know-about-distributed-tracing.md

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Software evolution

From

  • Monolith
  • On premise
  • Single language
  • Single stack
  • Virtual machines

To

  • Microservices
  • Containers
  • Multi cloud/hybrid
  • Polyglot
  • Serverless/Cloud functions

Better scalability or team performance and autonomy.

New microservice architecture, new challenges

  • Observability. A single instance does not give enough context to dedbug or understand stuff.
  • Deployment / packaging
  • Configuration management
  • Debugging
  • Secrets management

Distributed tracing

Method used to profile and monitor applications, especially those built using microservices. It helps pinpoint where failures occur and what causes poor performance.

Trace: A trace is a tree of spans that follows the course of a request or system from it source to its ultimate destination. Each trace is a narrative that tells the request story as it travels throught he system.

Span: Are logical units of work in a distributed system. They have a name, a start time, and a duration. Each span captures important data points specific to the current process handling request.

Context propagation: Metadata information passed form one service to another so it can be collected later. Usually passed by headers

   Incoming request   ┌───────────┐   Outbound request   ┌───────────┐
─────────────────────>│ Service 1 │─────────────────────>│ Service 2 │
   trace-id = 123     └───────────┘   trace-id = 123     └───────────┘
   parent-id = nil                    parent-id = 1
   span-id = 1                        spain-id = 2

Tags & Logs: Both annotate the span with some contextual information.

  • Tags typically apply to the whole span, while logs represent some events that happened during the span execution.
  • A log always has a timestamp that falls within the span's start-end time interval.
  • The tracing system does not explicitly track causality between logged events the way it keeps track of causality relationship between spans, because it can be inferred from the timestamps.

What questions help distributed tracing answer?

  • What services did a request pass through?
  • What ocurred in each service for a given request? Root-cause analysis
  • Where did the error happen? We are able to pinpoint where the error originated
  • Where are the bottlenecks?
  • What is the critical path for a request?
  • Who should I page?

Why isn't everybody using it?

  • Not much education or not many publicised case studies on the benefits.
  • Vendor Lock in is unacceptable: Instrumentation must be decoupled from vendors.
  • Inconsistent APIs: Tracing semantics must not be language dependent.
  • Handoff woes: Tracing libs in Project X do not handoff to tracing libs in Project Y.

Meet OpenTelemetry (opentelemetry.io)

OpenTelemetry is a match between OpenTracing and OpenCensus projects

  • Single set of APIs for tracing and metrics collection.
  • Standarised Context Propagation.
  • Exporters for sending data to backend of choice.
  • Collector for smart traces & metrics aggregation.
  • Integrations with popular web, RPC and storage frameworks.

Options

With agent

  • It does bytecode instrumentation and sends the data automatically

Manually instrumenting your application

  • You have to manually instrument to collect information

Tracers

Open source

Hosted

  • Honeycomb
  • New Relic
  • Data Dog