cloud-security
Use when assessing cloud infrastructure for security misconfigurations, IAM privilege escalation paths, S3 public exposure, open security group rules, or IaC security gaps. Covers AWS, Azure, and GCP posture assessment with MITRE ATT&CK mapping.
Best use case
cloud-security is best used when you need a repeatable AI agent workflow instead of a one-off prompt.
Use when assessing cloud infrastructure for security misconfigurations, IAM privilege escalation paths, S3 public exposure, open security group rules, or IaC security gaps. Covers AWS, Azure, and GCP posture assessment with MITRE ATT&CK mapping.
Teams using cloud-security should expect a more consistent output, faster repeated execution, less prompt rewriting.
When to use this skill
- You want a reusable workflow that can be run more than once with consistent structure.
When not to use this skill
- You only need a quick one-off answer and do not need a reusable workflow.
- You cannot install or maintain the underlying files, dependencies, or repository context.
Installation
Claude Code / Cursor / Codex
Manual Installation
- Download SKILL.md from GitHub
- Place it in
.claude/skills/cloud-security/SKILL.mdinside your project - Restart your AI agent — it will auto-discover the skill
How cloud-security Compares
| Feature / Agent | cloud-security | Standard Approach |
|---|---|---|
| Platform Support | Not specified | Limited / Varies |
| Context Awareness | High | Baseline |
| Installation Complexity | Unknown | N/A |
Frequently Asked Questions
What does this skill do?
Use when assessing cloud infrastructure for security misconfigurations, IAM privilege escalation paths, S3 public exposure, open security group rules, or IaC security gaps. Covers AWS, Azure, and GCP posture assessment with MITRE ATT&CK mapping.
Where can I find the source code?
You can find the source code on GitHub using the link provided at the top of the page.
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SKILL.md Source
# Cloud Security
Cloud security posture assessment skill for detecting IAM privilege escalation, public storage exposure, network configuration risks, and infrastructure-as-code misconfigurations. This is NOT incident response for active cloud compromise (see incident-response) or application vulnerability scanning (see security-pen-testing) — this is about systematic cloud configuration analysis to prevent exploitation.
---
## Table of Contents
- [Overview](#overview)
- [Cloud Posture Check Tool](#cloud-posture-check-tool)
- [IAM Policy Analysis](#iam-policy-analysis)
- [S3 Exposure Assessment](#s3-exposure-assessment)
- [Security Group Analysis](#security-group-analysis)
- [IaC Security Review](#iac-security-review)
- [Cloud Provider Coverage Matrix](#cloud-provider-coverage-matrix)
- [Workflows](#workflows)
- [Anti-Patterns](#anti-patterns)
- [Cross-References](#cross-references)
---
## Overview
### What This Skill Does
This skill provides the methodology and tooling for **cloud security posture management (CSPM)** — systematically checking cloud configurations for misconfigurations that create exploitable attack surface. It covers IAM privilege escalation paths, storage public exposure, network over-permissioning, and infrastructure code security.
### Distinction from Other Security Skills
| Skill | Focus | Approach |
|-------|-------|----------|
| **cloud-security** (this) | Cloud configuration risk | Preventive — assess before exploitation |
| incident-response | Active cloud incidents | Reactive — triage confirmed cloud compromise |
| threat-detection | Behavioral anomalies | Proactive — hunt for attacker activity in cloud logs |
| security-pen-testing | Application vulnerabilities | Offensive — actively exploit found weaknesses |
### Prerequisites
Read access to IAM policy documents, S3 bucket configurations, and security group rules in JSON format. For continuous monitoring, integrate with cloud provider APIs (AWS Config, Azure Policy, GCP Security Command Center).
---
## Cloud Posture Check Tool
The `cloud_posture_check.py` tool runs three types of checks: `iam` (privilege escalation), `s3` (public access), and `sg` (network exposure). It auto-detects the check type from the config file structure or accepts explicit `--check` flags.
```bash
# Analyze an IAM policy for privilege escalation paths
python3 scripts/cloud_posture_check.py policy.json --check iam --json
# Assess S3 bucket configuration for public access
python3 scripts/cloud_posture_check.py bucket_config.json --check s3 --json
# Check security group rules for open admin ports
python3 scripts/cloud_posture_check.py sg.json --check sg --json
# Run all checks with internet-facing severity bump
python3 scripts/cloud_posture_check.py config.json --check all \
--provider aws --severity-modifier internet-facing --json
# Regulated data context (bumps severity by one level for all findings)
python3 scripts/cloud_posture_check.py config.json --check all \
--severity-modifier regulated-data --json
# Pipe IAM policy from AWS CLI
aws iam get-policy-version --policy-arn arn:aws:iam::123456789012:policy/MyPolicy \
--version-id v1 | jq '.PolicyVersion.Document' | \
python3 scripts/cloud_posture_check.py - --check iam --json
```
### Exit Codes
| Code | Meaning | Required Action |
|------|---------|-----------------|
| 0 | No high/critical findings | No action required |
| 1 | High-severity findings | Remediate within 24 hours |
| 2 | Critical findings | Remediate immediately — escalate to incident-response if active |
---
## IAM Policy Analysis
IAM analysis detects privilege escalation paths, overprivileged grants, public principal exposure, and data exfiltration risk.
### Privilege Escalation Patterns
| Pattern | Severity | Key Action Combination | MITRE |
|---------|----------|------------------------|-------|
| Lambda PassRole escalation | Critical | iam:PassRole + lambda:CreateFunction | T1078.004 |
| EC2 instance profile abuse | Critical | iam:PassRole + ec2:RunInstances | T1078.004 |
| CloudFormation PassRole | Critical | iam:PassRole + cloudformation:CreateStack | T1078.004 |
| Self-attach policy escalation | Critical | iam:AttachUserPolicy + sts:GetCallerIdentity | T1484.001 |
| Inline policy self-escalation | Critical | iam:PutUserPolicy + sts:GetCallerIdentity | T1484.001 |
| Policy version backdoor | Critical | iam:CreatePolicyVersion + iam:ListPolicies | T1484.001 |
| Credential harvesting | High | iam:CreateAccessKey + iam:ListUsers | T1098.001 |
| Group membership escalation | High | iam:AddUserToGroup + iam:ListGroups | T1098 |
| Password reset attack | High | iam:UpdateLoginProfile + iam:ListUsers | T1098 |
| Service-level wildcard | High | iam:* or s3:* or ec2:* | T1078.004 |
### IAM Finding Severity Guide
| Finding Type | Condition | Severity |
|-------------|-----------|----------|
| Full admin wildcard | Action=* Resource=* | Critical |
| Public principal | Principal: '*' | Critical |
| Dangerous action combo | Two-action escalation path | Critical |
| Individual priv-esc actions | On wildcard resource | High |
| Data exfiltration actions | s3:GetObject, secretsmanager:GetSecretValue on * | High |
| Service wildcard | service:* action | High |
| Data actions on named resource | Appropriate scope | Low/Clean |
### Least Privilege Recommendations
For every critical or high finding, the tool outputs a `least_privilege_suggestion` field with specific remediation guidance:
- Replace `Action: *` with a named list of required actions
- Replace `Resource: *` with specific ARN patterns
- Use AWS Access Analyzer to identify actually-used permissions
- Separate dangerous action combinations into different roles with distinct trust policies
---
## S3 Exposure Assessment
S3 assessment checks four dimensions: public access block configuration, bucket ACL, bucket policy principal exposure, and default encryption.
### S3 Configuration Check Matrix
| Check | Finding Condition | Severity |
|-------|------------------|----------|
| Public access block | Any of four flags missing/false | High |
| Bucket ACL | public-read-write | Critical |
| Bucket ACL | public-read or authenticated-read | High |
| Bucket policy Principal | "Principal": "*" with Allow | Critical |
| Default encryption | No ServerSideEncryptionConfiguration | High |
| Default encryption | Non-standard SSEAlgorithm | Medium |
| No PublicAccessBlockConfiguration | Status unknown | Medium |
### Recommended S3 Baseline Configuration
```json
{
"PublicAccessBlockConfiguration": {
"BlockPublicAcls": true,
"BlockPublicPolicy": true,
"IgnorePublicAcls": true,
"RestrictPublicBuckets": true
},
"ServerSideEncryptionConfiguration": {
"Rules": [{
"ApplyServerSideEncryptionByDefault": {
"SSEAlgorithm": "aws:kms",
"KMSMasterKeyID": "arn:aws:kms:region:account:key/key-id"
},
"BucketKeyEnabled": true
}]
},
"ACL": "private"
}
```
All four public access block settings must be enabled at both the bucket level and the AWS account level. Account-level settings can be overridden by bucket-level settings if not both enforced.
---
## Security Group Analysis
Security group analysis flags inbound rules that expose admin ports, database ports, or all traffic to internet CIDRs (0.0.0.0/0, ::/0).
### Critical Port Exposure Rules
| Port | Service | Finding Severity | Remediation |
|------|---------|-----------------|-------------|
| 22 | SSH | Critical | Restrict to VPN CIDR or use AWS Systems Manager Session Manager |
| 3389 | RDP | Critical | Restrict to VPN CIDR or use AWS Fleet Manager |
| 0–65535 (all) | All traffic | Critical | Remove rule; add specific required ports only |
### High-Risk Database Port Rules
| Port | Service | Finding Severity | Remediation |
|------|---------|-----------------|-------------|
| 1433 | MSSQL | High | Allow from application tier SG only — move to private subnet |
| 3306 | MySQL | High | Allow from application tier SG only — move to private subnet |
| 5432 | PostgreSQL | High | Allow from application tier SG only — move to private subnet |
| 27017 | MongoDB | High | Allow from application tier SG only — move to private subnet |
| 6379 | Redis | High | Allow from application tier SG only — move to private subnet |
| 9200 | Elasticsearch | High | Allow from application tier SG only — move to private subnet |
### Severity Modifiers
Use `--severity-modifier internet-facing` when the assessed resource is directly internet-accessible (load balancer, API gateway, public EC2). Use `--severity-modifier regulated-data` when the resource handles PCI, HIPAA, or GDPR-regulated data. Both modifiers bump each finding's severity by one level.
---
## IaC Security Review
Infrastructure-as-code review catches configuration issues at definition time, before deployment.
### IaC Check Matrix
| Tool | Check Types | When to Run |
|------|-------------|-------------|
| Terraform | Resource-level checks (aws_s3_bucket_acl, aws_security_group, aws_iam_policy_document) | Pre-plan, pre-apply, PR gate |
| CloudFormation | Template property validation (PublicAccessBlockConfiguration, SecurityGroupIngress) | Template lint, deploy gate |
| Kubernetes manifests | Container privileges, network policies, secret exposure | PR gate, admission controller |
| Helm charts | Same as Kubernetes | PR gate |
### Terraform IAM Policy Example — Finding vs. Clean
```hcl
# BAD: Will generate critical findings
resource "aws_iam_policy" "bad_policy" {
policy = jsonencode({
Version = "2012-10-17"
Statement = [{
Effect = "Allow"
Action = "*"
Resource = "*"
}]
})
}
# GOOD: Least privilege
resource "aws_iam_policy" "good_policy" {
policy = jsonencode({
Version = "2012-10-17"
Statement = [{
Effect = "Allow"
Action = ["s3:GetObject", "s3:PutObject"]
Resource = "arn:aws:s3:::my-specific-bucket/*"
}]
})
}
```
Full CSPM check reference: `references/cspm-checks.md`
---
## Cloud Provider Coverage Matrix
| Check Type | AWS | Azure | GCP |
|-----------|-----|-------|-----|
| IAM privilege escalation | Full (IAM policies, trust policies, ESCALATION_COMBOS) | Partial (RBAC assignments, service principal risks) | Partial (IAM bindings, workload identity) |
| Storage public access | Full (S3 bucket policies, ACLs, public access block) | Partial (Blob SAS tokens, container access levels) | Partial (GCS bucket IAM, uniform bucket-level access) |
| Network exposure | Full (Security Groups, NACLs, port-level analysis) | Partial (NSG rules, inbound port analysis) | Partial (Firewall rules, VPC firewall) |
| IaC scanning | Full (Terraform, CloudFormation) | Partial (ARM templates, Bicep) | Partial (Deployment Manager) |
---
## Workflows
### Workflow 1: Quick Posture Check (20 Minutes)
For a newly provisioned resource or pre-deployment review:
```bash
# 1. Export IAM policy document
aws iam get-policy-version --policy-arn ARN --version-id v1 | \
jq '.PolicyVersion.Document' > policy.json
python3 scripts/cloud_posture_check.py policy.json --check iam --json
# 2. Check S3 bucket configuration
aws s3api get-bucket-acl --bucket my-bucket > acl.json
aws s3api get-public-access-block --bucket my-bucket >> bucket.json
python3 scripts/cloud_posture_check.py bucket.json --check s3 --json
# 3. Review security groups for open admin ports
aws ec2 describe-security-groups --group-ids sg-123456 | \
jq '.SecurityGroups[0]' > sg.json
python3 scripts/cloud_posture_check.py sg.json --check sg --json
```
**Decision**: Exit code 2 = block deployment and remediate. Exit code 1 = schedule remediation within 24 hours.
### Workflow 2: Full Cloud Security Assessment (Multi-Day)
**Day 1 — IAM and Identity:**
1. Export all IAM policies attached to production roles
2. Run cloud_posture_check.py --check iam on each policy
3. Map all privilege escalation paths found
4. Identify overprivileged service accounts and roles
5. Review cross-account trust policies
**Day 2 — Storage and Network:**
1. Enumerate all S3 buckets and export configurations
2. Run cloud_posture_check.py --check s3 --severity-modifier regulated-data for data buckets
3. Export security group configurations for all VPCs
4. Run cloud_posture_check.py --check sg for internet-facing resources
5. Review NACL rules for network segmentation gaps
**Day 3 — IaC and Continuous Integration:**
1. Review Terraform/CloudFormation templates in version control
2. Check CI/CD pipeline for IaC security gates
3. Validate findings against `references/cspm-checks.md`
4. Produce remediation plan with priority ordering (Critical → High → Medium)
### Workflow 3: CI/CD Security Gate
Integrate posture checks into deployment pipelines to prevent misconfigured resources reaching production:
```bash
# Validate IaC before terraform apply
terraform show -json plan.json | \
jq '[.resource_changes[].change.after | select(. != null)]' > resources.json
python3 scripts/cloud_posture_check.py resources.json --check all --json
if [ $? -eq 2 ]; then
echo "Critical cloud security findings — blocking deployment"
exit 1
fi
# Validate existing S3 bucket before modifying
aws s3api get-bucket-policy --bucket "${BUCKET}" | jq '.Policy | fromjson' | \
python3 scripts/cloud_posture_check.py - --check s3 \
--severity-modifier regulated-data --json
```
---
## Anti-Patterns
1. **Running IAM analysis without checking escalation combos** — Individual high-risk actions in isolation may appear low-risk. The danger is in combinations: `iam:PassRole` alone is not critical, but `iam:PassRole + lambda:CreateFunction` is a confirmed privilege escalation path. Always analyze the full statement, not individual actions.
2. **Enabling only bucket-level public access block** — AWS S3 has both account-level and bucket-level public access block settings. A bucket-level setting can override an account-level setting. Both must be configured. Account-level block alone is insufficient if any bucket has explicit overrides.
3. **Treating `--severity-modifier internet-facing` as optional for public resources** — Internet-facing resources have significantly higher exposure than internal resources. High findings on internet-facing infrastructure should be treated as critical. Always apply `--severity-modifier internet-facing` for DMZ, load balancer, and API gateway configurations.
4. **Checking only administrator policies** — Privilege escalation paths frequently originate from non-administrator policies that combine innocuous-looking permissions. All policies attached to production identities must be checked, not just policies with obvious elevated access.
5. **Remediating findings without root cause analysis** — Removing a dangerous permission without understanding why it was granted will result in re-addition. Document the business justification for every high-risk permission before removing it, to prevent silent re-introduction.
6. **Ignoring service account over-permissioning** — Service accounts are often over-provisioned during development and never trimmed for production. Every service account in production must be audited against AWS Access Analyzer or equivalent to identify and remove unused permissions.
7. **Not applying severity modifiers for regulated data workloads** — A high finding in a general-purpose S3 bucket is different from the same finding in a bucket containing PHI or cardholder data. Always use `--severity-modifier regulated-data` when assessing resources in regulated data environments.
---
## Cross-References
| Skill | Relationship |
|-------|-------------|
| [incident-response](../incident-response/SKILL.md) | Critical findings (public S3, privilege escalation confirmed active) may trigger incident classification |
| [threat-detection](../threat-detection/SKILL.md) | Cloud posture findings create hunting targets — over-permissioned roles are likely lateral movement destinations |
| [red-team](../red-team/SKILL.md) | Red team exercises specifically test exploitability of cloud misconfigurations found in posture assessment |
| [security-pen-testing](../security-pen-testing/SKILL.md) | Cloud posture findings feed into the infrastructure security section of pen test assessments |Related Skills
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Query the LLM Wiki — reads index.md first, drills into 3-10 relevant pages, synthesizes an answer with inline [[wikilink]] citations, and offers to file the answer back as a new comparison or synthesis page. Usage /wiki-query "<question>"
wiki-log
Show recent entries from the LLM Wiki log (wiki/log.md). Uses the standardized
wiki-lint
Run a health check on the LLM Wiki vault — mechanical checks (orphans, broken links, stale pages, missing frontmatter, log gap, duplicates) plus semantic checks (contradictions, cross-reference gaps, concepts missing their own page). Outputs a markdown report with suggested actions. Usage /wiki-lint [--stale-days N] [--log-gap-days N]
wiki-init
Bootstrap a fresh LLM Wiki vault with the three-layer structure, schema files, and starter templates. Usage /wiki-init <path> --topic "<topic>" [--tool all|claude-code|codex|cursor|antigravity]
wiki-ingest
Ingest a source file from raw/ into the LLM Wiki — read, discuss, write summary page, update cross-references across 5-15 pages, regenerate index, append to log. Usage /wiki-ingest <path-to-source>