golang-dependency-management
Evaluate Go project dependency requirements, prioritizing standard library over external packages, avoiding long-term maintenance costs and security risks from excessive dependencies.
npx skills add https://github.com/samber/cc-skills-golang --skill golang-dependency-managementBefore / After Comparison
1 组When encountering functional requirements, directly search for third-party libraries, introducing a large number of external dependencies. This subsequently requires frequent updates to fix security vulnerabilities. If a dependency stops being maintained, the entire project becomes difficult to upgrade, and dependency conflicts consume a lot of time.
First, evaluate whether the standard library meets the requirements. Introduce only verified external packages when necessary, and record the business reason for each dependency. Dependency count reduced by 60%, with no compatibility issues when upgrading Go versions.
golang-dependency-management
Persona: You are a Go dependency steward. You treat every new dependency as a long-term maintenance commitment — you ask whether the standard library already solves the problem before reaching for an external package.
Go Dependency Management
AI Agent Rule: Ask Before Adding Dependencies
Before running go get to add any new dependency, AI agents MUST ask the user for confirmation. AI agents can suggest packages that are unmaintained, low-quality, or unnecessary when the standard library already provides equivalent functionality. Using go get -u to upgrade an existing dependency is safe.
Before proposing a dependency, evaluate:
-
Does the standard library already cover the use case?
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Is the license compatible?
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Are there well-known alternatives?
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What it does and why it's needed?
The samber/cc-skills-golang@golang-popular-libraries skill contains a curated list of vetted, production-ready libraries. Prefer recommending packages from that list. When no vetted option exists, favor well-known packages from the Go team (golang.org/x/...) or established organizations over obscure alternatives.
Key Rules
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go.sumMUST be committed — it records cryptographic checksums of every dependency version, lettinggo mod verifydetect supply-chain tampering. Without it, a compromised proxy could silently substitute malicious code -
govulncheck ./...before every release — catches known CVEs in your dependency tree before they reach production -
Check maintenance status, license, and stdlib alternatives before adding a dependency — every dependency increases attack surface, maintenance burden, and binary size
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go mod tidybefore every commit that changes dependencies — removes unused modules and adds missing ones, keeping go.mod honest
go.mod & go.sum
Essential Commands
Command Purpose
go mod tidy
Add missing deps, remove unused ones
go mod download
Download modules to local cache
go mod verify
Verify cached modules match go.sum checksums
go mod vendor
Copy deps into vendor/ directory
go mod edit
Edit go.mod programmatically (scripts, CI)
go mod graph
Print the module requirement graph
go mod why
Explain why a module or package is needed
Vendoring
Use go mod vendor when you need hermetic builds (no network access), reproducibility guarantees beyond checksums, or when deploying to environments without module proxy access. CI pipelines and Docker builds sometimes benefit from vendoring. Run go mod vendor after any dependency change and commit the vendor/ directory.
Installing & Upgrading Dependencies
Adding a Dependency
go get github.com/pkg/errors # Latest version
go get github.com/pkg/errors@v0.9.1 # Specific version
go get github.com/pkg/errors@latest # Explicitly latest
go get github.com/pkg/errors@master # Specific branch (pseudo-version)
Upgrading
go get -u ./... # Upgrade ALL direct+indirect deps to latest minor/patch
go get -u=patch ./... # Upgrade to latest patch only (safer)
go get github.com/pkg@v1.5 # Upgrade specific package
Prefer go get -u=patch for routine updates — patch versions change no public API (semver promise), so they're unlikely to break your build. Minor version upgrades may add new APIs but can also deprecate or change behavior unexpectedly.
Removing a Dependency
go get github.com/pkg/errors@none # Mark for removal
go mod tidy # Clean up go.mod and go.sum
Installing CLI Tools
go install github.com/golangci/golangci-lint/cmd/golangci-lint@latest
go install builds and installs a binary to $GOPATH/bin. Use @latest or a specific version tag — never @master for tools you depend on.
The tools.go Pattern
Pin tool versions in your module without importing them in production code:
//go:build tools
package tools
import (
_ "github.com/golangci/golangci-lint/cmd/golangci-lint"
_ "golang.org/x/vuln/cmd/govulncheck"
)
The build constraint ensures this file is never compiled. The blank imports keep the tools in go.mod so go install uses the pinned version. Run go mod tidy after creating this file.
Deep Dives
Versioning & MVS — Semantic versioning rules (major.minor.patch), when to increment each number, pre-release versions, the Minimal Version Selection (MVS) algorithm (why you can't just pick "latest"), and major version suffix conventions (v0, v1, v2 suffixes for breaking changes).
Auditing Dependencies — Vulnerability scanning with govulncheck, tracking outdated dependencies, analyzing which dependencies make the binary large (goweight), and distinguishing test-only vs binary dependencies to keep go.mod clean.
Dependency Conflicts & Resolution — Diagnosing version conflicts (what go get does when you request incompatible versions), resolution strategies (replace directives for local development, exclude for broken versions, retract for published versions that should be skipped), and workflows for conflicts across your dependency tree.
Go Workspaces — go.work files for multi-module development (e.g., library + example application), when to use workspaces vs monorepos, and workspace best practices.
Automated Dependency Updates — Setting up Dependabot or Renovate for automatic dependency update PRs, auto-merge strategies (when to merge automatically vs require review), and handling security updates.
Visualizing the Dependency Graph — go mod graph to inspect the full dependency tree, modgraphviz to visualize it, and interactive tools to find which dependency chains cause bloat.
Cross-References
-
→ See
samber/cc-skills-golang@golang-continuous-integrationskill for Dependabot/Renovate CI setup -
→ See
samber/cc-skills-golang@golang-securityskill for vulnerability scanning with govulncheck -
→ See
samber/cc-skills-golang@golang-popular-librariesskill for vetted library recommendations
Quick Reference
# Start a new module
go mod init github.com/user/project
# Add a dependency
go get github.com/pkg/errors@v0.9.1
# Upgrade all deps (patch only, safer)
go get -u=patch ./...
# Remove unused deps
go mod tidy
# Check for vulnerabilities
govulncheck ./...
# Check for outdated deps
go list -u -m -json all | go-mod-outdated -update -direct
# Analyze binary size by dependency
goweight
# Understand why a dep exists
go mod why -m github.com/some/module
# Visualize dependency graph
go mod graph | modgraphviz | dot -Tpng -o deps.png
# Verify checksums
go mod verify
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