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Terraform Validator

Comprehensive toolkit for validating, linting, and testing Terraform configurations with automated workflows for syntax validation, security scanning, and intelligent documentation lookup.

Claude Code Knowledge Pack7/10/2026

Overview

Terraform Validator

Comprehensive toolkit for validating, linting, and testing Terraform configurations with automated workflows for syntax validation, security scanning, and intelligent documentation lookup.

⚠️ Critical Requirements Checklist

STOP: You MUST complete these steps in order. Do NOT skip any REQUIRED step.

StepActionRequired
1Run bash scripts/extract_tf_info_wrapper.sh <path>✅ REQUIRED
2Context7 lookup for ALL providers (explicit AND implicit); WebSearch fallback if not found✅ REQUIRED
3READ references/security_checklist.md✅ REQUIRED
4READ references/best_practices.md✅ REQUIRED
5Run terraform fmt✅ REQUIRED
6Run tflint (or note as skipped if unavailable)Recommended
7Run terraform init (if not initialized)✅ REQUIRED
8Run terraform validate✅ REQUIRED
9Run bash scripts/run_checkov.sh <path>✅ REQUIRED
10Cross-reference findings with security_checklist.md sections✅ REQUIRED
11Generate report citing reference files✅ REQUIRED
12Run regression tests (bash tests/test_regression.sh)✅ REQUIRED
13Run lightweight CI checks (bash -n, py_compile, smoke)✅ REQUIRED

IMPORTANT: Steps 3-4 (reading reference files) must be completed BEFORE running security scans. The reference files contain remediation patterns that MUST be cited in your report.

Context7 Fallback: If Context7 does not have a provider (common for: random, null, local, time, tls), use WebSearch: "terraform-provider-{name} hashicorp documentation"

When to Use This Skill

  • Working with Terraform files (.tf, .tfvars, .tfstate)
  • Validating Terraform configuration syntax and structure
  • Linting and formatting HCL code
  • Performing dry-run testing with terraform plan
  • Debugging Terraform errors or misconfigurations
  • Understanding custom Terraform providers or modules
  • Security validation of Terraform configurations

External Documentation

Validation Workflow

IMPORTANT: Follow this workflow in order. Each step is REQUIRED unless explicitly marked optional.

1. Identify Terraform files in scope
   ├─> Single file, directory, or multi-environment

2. Extract Provider/Module Info (REQUIRED)
   ├─> MUST run: bash scripts/extract_tf_info_wrapper.sh <path>
   ├─> Parse output for providers and modules
   └─> Use for Context7 documentation lookup

3. Lookup Provider Documentation (REQUIRED)
   ├─> For EACH provider detected:
   │   ├─> mcp__context7__resolve-library-id with "terraform-provider-{name}"
   │   ├─> mcp__context7__query-docs for version-specific guidance
   │   └─> If NOT found in Context7: WebSearch fallback (see below)
   └─> Note any custom/private providers for WebSearch

4. Read Reference Files (REQUIRED before validation)
   ├─> MUST READ: references/security_checklist.md (before security scan)
   ├─> MUST READ: references/best_practices.md (for structure validation)
   └─> Reference common_errors.md if errors occur

5. Format and Lint (REQUIRED)
   ├─> MUST run: terraform fmt -recursive (auto-fix formatting)
   ├─> MUST run: terraform fmt -check -recursive (verify no drift)
   ├─> RUN: tflint (or note as skipped if unavailable)
   └─> Report formatting issues

6. Syntax Validation (REQUIRED)
   ├─> MUST run: terraform init (if not initialized)
   ├─> MUST run: terraform validate
   └─> Report syntax errors (consult common_errors.md)

7. Security Scanning (REQUIRED)
   ├─> MUST run: bash scripts/run_checkov.sh <path>
   ├─> Analyze policy violations against security_checklist.md
   └─> Suggest remediations from reference

8. Dry-Run Testing (if credentials available)
   ├─> terraform plan
   ├─> Analyze planned changes
   └─> Report potential issues

9. Regression and Wrapper Determinism Checks (REQUIRED)
   ├─> MUST run: bash tests/test_regression.sh
   ├─> Confirms parser error handling returns non-zero
   ├─> Confirms implicit provider detection for docs lookup
   ├─> Confirms wrapper argument handling is deterministic
   └─> Confirms checkov wrapper preserves scanner exit code

10. Lightweight CI Checks (REQUIRED)
   ├─> MUST run: bash -n scripts/*.sh
   ├─> MUST run: python3 -m py_compile scripts/*.py
   ├─> MUST run: smoke check for extract wrapper on sample fixture
   └─> Record command outputs and exit codes

11. Generate Comprehensive Report
   ├─> Include all findings with severity
   ├─> Reference best_practices.md for recommendations
   └─> Offer to fix issues if appropriate

Required Reference File Reading

You MUST read these reference files during validation:

WhenReference FileAction
Before security scanreferences/security_checklist.mdRead to understand security checks and remediation patterns
During validationreferences/best_practices.mdRead to validate project structure, naming, and patterns
If errors occurreferences/common_errors.mdRead to find solutions for specific error messages
If using Terraform 1.10+references/advanced_features.mdRead to understand ephemeral values, actions, list resources

Required Script Usage

You MUST use these wrapper scripts instead of calling tools directly:

TaskScriptCommand
Extract provider/module infoextract_tf_info_wrapper.shbash scripts/extract_tf_info_wrapper.sh <path>
Run security scanrun_checkov.shbash scripts/run_checkov.sh <path>
Install checkov (if missing)install_checkov.shbash scripts/install_checkov.sh install

Note: extract_tf_info_wrapper.sh automatically handles the python-hcl2 dependency. If system Python lacks python-hcl2, it creates/reuses a cached virtual environment under ~/.cache/terraform-validator/ by default.

Script Run Context (REQUIRED)

  • Default working directory: devops-skills-plugin/skills/terraform-validator
  • If running from elsewhere, use absolute script paths:
    • bash /absolute/path/to/terraform-validator/scripts/extract_tf_info_wrapper.sh <path>
    • bash /absolute/path/to/terraform-validator/scripts/run_checkov.sh <path>
    • bash /absolute/path/to/terraform-validator/scripts/install_checkov.sh install

Context7 Provider Documentation Lookup (REQUIRED)

For EVERY provider detected, you MUST lookup documentation via Context7:

1. Run extract_tf_info_wrapper.sh to get provider list
2. For each provider (e.g., "aws", "google", "azurerm"):
   a. Call: mcp__context7__resolve-library-id with "terraform-provider-{name}"
   b. Call: mcp__context7__query-docs with the resolved ID
   c. Note version-specific features and constraints
3. Include relevant provider guidance in validation report

Example for AWS provider:

mcp__context7__resolve-library-id("terraform-provider-aws")
mcp__context7__query-docs(context7CompatibleLibraryID, "best practices")

Context7 Fallback to WebSearch (REQUIRED)

If Context7 does not find a provider, you MUST fall back to WebSearch:

1. If mcp__context7__resolve-library-id returns no results or provider not found:
   a. Use WebSearch with query: "terraform-provider-{name} hashicorp documentation"
   b. For specific version: "terraform-provider-{name} {version} documentation site:registry.terraform.io"
2. Common providers NOT in Context7 (use WebSearch directly):
   - random (hashicorp/random)
   - null (hashicorp/null)
   - local (hashicorp/local)
   - time (hashicorp/time)
   - tls (hashicorp/tls)
3. Document in report: "Provider docs via WebSearch (not in Context7)"

WebSearch Fallback Example:

# If Context7 fails for random provider:
WebSearch("terraform-provider-random hashicorp documentation site:registry.terraform.io")

Note: HashiCorp utility providers (random, null, local, time, tls, archive, external, http) may not be indexed in Context7. Always fall back to WebSearch for these.

Detecting Implicit Providers (REQUIRED)

IMPORTANT: Providers can be used without being declared in required_providers. You MUST detect ALL providers:

Detection Methods

  1. Explicit Providers: Listed in required_providers block (from extract_tf_info_wrapper.sh output)
  2. Implicit Providers: Inferred from resource type prefixes

Common Implicit Provider Patterns

Resource Type PrefixProvider NameContext7 Lookup
random_*randomterraform-provider-random
null_*nullterraform-provider-null
local_*localterraform-provider-local
tls_*tlsterraform-provider-tls
time_*timeterraform-provider-time
archive_*archiveterraform-provider-archive
http (data source)httpterraform-provider-http
external (data source)externalterraform-provider-external

Workflow for Complete Provider Detection

1. Parse extract_tf_info_wrapper.sh output
2. Get providers from "providers" array (explicit)
3. Get resources from "resources" array
4. For EACH resource type:
   a. Extract prefix (e.g., "random" from "random_id")
   b. Check if already in providers list
   c. If NOT in providers: add as implicit provider
5. Perform Context7 lookup for ALL providers (explicit + implicit)

Example

If extract_tf_info_wrapper.sh returns:

{
  "providers": [{"name": "aws", ...}],
  "resources": [
    {"type": "aws_instance", ...},
    {"type": "random_id", ...}
  ]
}

You MUST lookup BOTH:

  • terraform-provider-aws (explicit)
  • terraform-provider-random (implicit - detected from random_id resource)

Quick Reference Commands

Format and Lint

# Check formatting (dry-run)
terraform fmt -check -recursive .

# Apply formatting
terraform fmt -recursive .

# Run tflint (requires .tflint.hcl config)
tflint --init              # Install plugins
tflint --recursive         # Lint all modules
tflint --format compact    # Compact output

TFLint Configuration: See TFLint Ruleset documentation for plugin setup.

Validate Configuration

# Initialize (downloads providers and modules)
terraform init

# Validate syntax
terraform validate

# Validate with JSON output
terraform validate -json

Security Scanning

MUST use wrapper script:

# Use the wrapper script (REQUIRED)
bash scripts/run_checkov.sh ./terraform

# With specific options
bash scripts/run_checkov.sh -f json ./terraform
bash scripts/run_checkov.sh --compact ./terraform

Detailed Security Scanning: You MUST read references/security_checklist.md before running security scans to understand the checks and remediation patterns.

Security Finding Cross-Reference (REQUIRED)

When reporting security findings, you MUST cite specific sections from security_checklist.md:

Cross-Reference Mapping

Checkov Check Patternsecurity_checklist.md Section
CKV_AWS_24 (SSH open)"Overly Permissive Security Groups"
CKV_AWS_260 (HTTP open)"Overly Permissive Security Groups"
CKV_AWS_16 (RDS encryption)"Encryption at Rest"
CKV_AWS_17 (RDS public)"RDS Databases"
CKV_AWS_130 (public subnet)"Network Security"
CKV_AWS_53-56 (S3 public access)"Public S3 Buckets"
CKV_AWS_* (IAM)"IAM Security"
CKV_AWS_79 (IMDSv1)"ECS/EKS"
Hardcoded passwords"Hardcoded Credentials"
Sensitive outputs"Sensitive Output Exposure"

Report Template for Security Findings

### Security Issue: [Check ID]

**Finding:** [Description from checkov]
**Resource:** [Resource name and file:line]
**Severity:** [HIGH/MEDIUM/LOW]

**Reference:** security_checklist.md - "[Section Name]"

**Remediation Pattern:**
[Copy relevant code example from security_checklist.md]

**Recommended Fix:**
[Specific fix for this configuration]

Example Cross-Referenced Report

### Security Issue: CKV_AWS_24

**Finding:** Security group allows SSH from 0.0.0.0/0
**Resource:** aws_security_group.web (main.tf:47-79)
**Severity:** HIGH

**Reference:** security_checklist.md - "Overly Permissive Security Groups"

**Remediation Pattern (from reference):**
```hcl
variable "admin_cidr" {
  description = "CIDR block for admin access"
  type        = string
}

resource "aws_security_group" "app" {
  ingress {
    description = "SSH from admin network only"
    from_port   = 22
    to_port     = 22
    protocol    = "tcp"
    cidr_blocks = [var.admin_cidr]
  }
}
```

**Recommended Fix:** Replace `cidr_blocks = ["0.0.0.0/0"]` with a variable or specific CIDR range.

Dry-Run Testing

# Generate execution plan
terraform plan

# Save plan to file
terraform plan -out=tfplan

# Plan with specific var file
terraform plan -var-file="production.tfvars"

# Plan with target resource
terraform plan -target=aws_instance.example

Plan Output Symbols:

  • + Resources to be created
  • - Resources to be destroyed
  • ~ Resources to be modified
  • -/+ Resources to be replaced

Handling Missing Tools

When validation tools are not installed, follow this recovery workflow:

Recovery Workflow (REQUIRED)

1. Detect missing tool
2. Inform user what is missing and why it's needed
3. Provide installation command
4. ASK user: "Would you like me to install [tool] and continue?"
5. If yes: Run installation and RERUN the validation step
6. If no: Note as skipped in report, continue with available tools

Tool-Specific Recovery

If checkov is missing:

1. Inform: "Checkov is not installed. It's required for security scanning."
2. Ask: "Would you like me to install it? I'll use: bash scripts/install_checkov.sh install"
3. If yes: Run install script, then rerun security scan

If tflint is missing:

1. Inform: "TFLint is not installed. It provides advanced linting beyond terraform validate."
2. Ask: "Would you like me to install it?"
3. Provide: brew install tflint (macOS) or installation script (Linux)

If python-hcl2 is missing:

The extract_tf_info_wrapper.sh script handles this automatically by creating
o