| name | debugging-techniques |
| description | Debugging workflows for Python (pdb, debugpy), Go (delve), Rust (lldb), and Node.js, including container debugging (kubectl debug, ephemeral containers) and production-safe debugging techniques with distributed tracing and correlation IDs. Use when setting breakpoints, debugging containers/pods, remote debugging, or production debugging. |
Debugging Techniques
Purpose
Provides systematic debugging workflows for local, remote, container, and production environments across Python, Go, Rust, and Node.js. Covers interactive debuggers, container debugging with ephemeral containers, and production-safe techniques using correlation IDs and distributed tracing.
When to Use This Skill
Trigger this skill for:
- Setting breakpoints in Python, Go, Rust, or Node.js code
- Debugging running containers or Kubernetes pods
- Setting up remote debugging connections
- Safely debugging production issues
- Inspecting goroutines, threads, or async tasks
- Analyzing core dumps or stack traces
- Choosing the right debugging tool for a scenario
Quick Reference by Language
Python Debugging
Built-in: pdb
def buggy_function(x, y):
breakpoint()
return x / y
import pdb
pdb.set_trace()
Essential pdb commands:
list (l) - Show code around current line
next (n) - Execute current line, step over functions
step (s) - Execute current line, step into functions
continue (c) - Continue until next breakpoint
print var (p) - Print variable value
where (w) - Show stack trace
quit (q) - Exit debugger
Enhanced tools:
ipdb - Enhanced pdb with tab completion, syntax highlighting (pip install ipdb)
pudb - Terminal GUI debugger (pip install pudb)
debugpy - VS Code integration (included in Python extension)
Debugging tests:
pytest --pdb
For detailed Python debugging patterns, see references/python-debugging.md.
Go Debugging
Delve - Official Go debugger
Installation:
go install github.com/go-delve/delve/cmd/dlv@latest
Basic usage:
dlv debug main.go
dlv test github.com/me/pkg
dlv attach <pid>
dlv debug -- --config prod.yaml
Essential commands:
break main.main (b) - Set breakpoint at function
break file.go:10 (b) - Set breakpoint at line
continue (c) - Continue execution
next (n) - Step over
step (s) - Step into
print x (p) - Print variable
goroutine (gr) - Show current goroutine
goroutines (grs) - List all goroutines
goroutines -t - Show goroutine stacktraces
stack (bt) - Show stack trace
Goroutine debugging:
(dlv) goroutines
(dlv) goroutines -t
(dlv) goroutines -with user
(dlv) goroutine 5
For detailed Go debugging patterns, see references/go-debugging.md.
Rust Debugging
LLDB - Default Rust debugger
Compilation:
cargo build
Usage:
rust-lldb target/debug/myapp
rust-gdb target/debug/myapp
Essential LLDB commands:
breakpoint set -f main.rs -l 10 - Set breakpoint at line
breakpoint set -n main - Set breakpoint at function
run (r) - Start program
continue (c) - Continue execution
next (n) - Step over
step (s) - Step into
print variable (p) - Print variable
frame variable (fr v) - Show local variables
backtrace (bt) - Show stack trace
thread list - List all threads
VS Code integration:
- Install CodeLLDB extension (
vadimcn.vscode-lldb)
- Configure
launch.json for Rust projects
For detailed Rust debugging patterns, see references/rust-debugging.md.
Node.js Debugging
Built-in: node --inspect
Basic usage:
node --inspect-brk app.js
node --inspect app.js
node --inspect=0.0.0.0:9229 app.js
Chrome DevTools:
- Open
chrome://inspect
- Click "Open dedicated DevTools for Node"
- Set breakpoints, inspect variables
VS Code integration:
Configure launch.json:
{
"type": "node",
"request": "launch",
"name": "Launch Program",
"program": "${workspaceFolder}/app.js"
}
Docker debugging:
EXPOSE 9229
CMD ["node", "--inspect=0.0.0.0:9229", "app.js"]
For detailed Node.js debugging patterns, see references/nodejs-debugging.md.
Container & Kubernetes Debugging
kubectl debug with Ephemeral Containers
When to use:
- Container has crashed (kubectl exec won't work)
- Using distroless/minimal image (no shell, no tools)
- Need debugging tools without rebuilding image
- Debugging network issues
Basic usage:
kubectl debug -it <pod-name> --image=nicolaka/netshoot
kubectl debug -it <pod-name> --image=busybox --share-processes
kubectl debug -it <pod-name> --image=busybox --target=app
Recommended debugging images:
nicolaka/netshoot (~380MB) - Network debugging (curl, dig, tcpdump, netstat)
busybox (~1MB) - Minimal shell and utilities
alpine (~5MB) - Lightweight with package manager
ubuntu (~70MB) - Full environment
Node debugging:
kubectl debug node/<node-name> -it --image=ubuntu
Docker container debugging:
docker exec -it <container-id> sh
docker run -it --pid=container:<container-id> \
--net=container:<container-id> \
busybox sh
For detailed container debugging patterns, see references/container-debugging.md.
Production Debugging
Production Debugging Principles
Golden rules:
- Minimal performance impact - Profile overhead, limit scope
- No blocking operations - Use non-breaking techniques
- Security-aware - Avoid logging secrets, PII
- Reversible - Can roll back quickly (feature flags, Git)
- Observable - Structured logging, correlation IDs, tracing
Safe Production Techniques
1. Structured Logging
import logging
import json
logger = logging.getLogger(__name__)
logger.info(json.dumps({
"event": "user_login_failed",
"user_id": user_id,
"error": str(e),
"correlation_id": request_id
}))
2. Correlation IDs (Request Tracing)
func handleRequest(w http.ResponseWriter, r *http.Request) {
correlationID := r.Header.Get("X-Correlation-ID")
if correlationID == "" {
correlationID = generateUUID()
}
ctx := context.WithValue(r.Context(), "correlationID", correlationID)
log.Printf("[%s] Processing request", correlationID)
}
3. Distributed Tracing (OpenTelemetry)
from opentelemetry import trace
tracer = trace.get_tracer(__name__)
def process_order(order_id):
with tracer.start_as_current_span("process_order") as span:
span.set_attribute("order.id", order_id)
span.add_event("Order validated")
4. Error Tracking Platforms
- Sentry - Exception tracking with context
- New Relic - APM with error tracking
- Datadog - Logs, metrics, traces
- Rollbar - Error monitoring
Production debugging workflow:
- Detect - Error tracking alert, log spike, metric anomaly
- Locate - Find correlation ID, search logs, view distributed trace
- Reproduce - Try to reproduce in staging with production data (sanitized)
- Fix - Create feature flag, deploy to canary first
- Verify - Check error rates, review logs, monitor traces
For detailed production debugging patterns, see references/production-debugging.md.
Decision Framework
Which Debugger for Which Language?
| Language | Primary Tool | Installation | Best For |
|---|
| Python | pdb | Built-in | Simple scripts, server environments |
| ipdb | pip install ipdb | Enhanced UX, IPython users |
| debugpy | VS Code extension | IDE integration, remote debugging |
| Go | delve | go install github.com/go-delve/delve/cmd/dlv@latest | All Go debugging, goroutines |
| Rust | rust-lldb | System package | Mac, Linux, MSVC Windows |
| rust-gdb | System package | Linux, prefer GDB |
| Node.js | node --inspect | Built-in | All Node.js debugging, Chrome DevTools |
Which Technique for Which Scenario?
| Scenario | Recommended Technique | Tools |
|---|
| Local development | Interactive debugger | pdb, delve, lldb, node --inspect |
| Bug in test | Test-specific debugging | pytest --pdb, dlv test, cargo test |
| Remote server | SSH tunnel + remote attach | VS Code Remote, debugpy |
| Container (local) | docker exec -it | sh/bash + debugger |
| Kubernetes pod | Ephemeral container | kubectl debug --image=nicolaka/netshoot |
| Distroless image | Ephemeral container (required) | kubectl debug with busybox/alpine |
| Production issue | Log analysis + error tracking | Structured logs, Sentry, correlation IDs |
| Goroutine deadlock | Goroutine inspection | delve goroutines -t |
| Crashed process | Core dump analysis | gdb core, lldb -c core |
| Distributed failure | Distributed tracing | OpenTelemetry, Jaeger, correlation IDs |
| Race condition | Race detector + debugger | go run -race, cargo test |
Production Debugging Safety Checklist
Before debugging in production:
Common Debugging Workflows
Workflow 1: Local Development Bug
- Insert breakpoint in code (language-specific)
- Start debugger (dlv debug, rust-lldb, node --inspect-brk)
- Execute to breakpoint (run, continue)
- Inspect variables (print, frame variable)
- Step through code (next, step, finish)
- Identify issue and fix
Workflow 2: Test Failure Debugging
Python:
pytest --pdb
Go:
dlv test github.com/user/project/pkg
(dlv) break TestMyFunction
(dlv) continue
Rust:
cargo test --no-run
rust-lldb target/debug/deps/myapp-<hash>
(lldb) breakpoint set -n test_name
(lldb) run test_name
Workflow 3: Kubernetes Pod Debugging
Scenario: Pod with distroless image, network issue
kubectl get pod my-app-pod -o wide
kubectl logs my-app-pod
kubectl debug -it my-app-pod --image=nicolaka/netshoot
curl localhost:8080
netstat -tuln
nslookup api.example.com
Workflow 4: Production Error Investigation
Scenario: API returning 500 errors
Additional Resources
For language-specific deep dives:
references/python-debugging.md - pdb, ipdb, pudb, debugpy detailed guide
references/go-debugging.md - Delve CLI, goroutine debugging, conditional breakpoints
references/rust-debugging.md - LLDB vs GDB, ownership debugging, macro debugging
references/nodejs-debugging.md - node --inspect, Chrome DevTools, Docker debugging
For environment-specific patterns:
references/container-debugging.md - kubectl debug, ephemeral containers, node debugging
references/production-debugging.md - Structured logging, correlation IDs, OpenTelemetry, error tracking
For decision support:
references/decision-trees.md - Expanded debugging decision frameworks
For hands-on examples:
examples/ - Step-by-step debugging sessions for each language
Related Skills
For authentication patterns, see the auth-security skill.
For performance profiling (complementary to debugging), see the performance-engineering skill.
For Kubernetes operations (kubectl debug is part of), see the kubernetes-operations skill.
For test debugging strategies, see the testing-strategies skill.
For observability setup (logging, tracing), see the observability skill.