From bash-master
Provides security-first patterns for 2025 bash scripting: mandatory input validation, command injection prevention, path traversal safeguards, zero-trust principles.
npx claudepluginhub josiahsiegel/claude-plugin-marketplace --plugin bash-masterThis skill uses the workspace's default tool permissions.
**MANDATORY: Always Use Backslashes on Windows for File Paths**
Creates isolated Git worktrees for feature branches with prioritized directory selection, gitignore safety checks, auto project setup for Node/Python/Rust/Go, and baseline verification.
Executes implementation plans in current session by dispatching fresh subagents per independent task, with two-stage reviews: spec compliance then code quality.
Dispatches parallel agents to independently tackle 2+ tasks like separate test failures or subsystems without shared state or dependencies.
MANDATORY: Always Use Backslashes on Windows for File Paths
When using Edit or Write tools on Windows, you MUST use backslashes (\) in file paths, NOT forward slashes (/).
Examples:
D:/repos/project/file.tsxD:\repos\project\file.tsxThis applies to:
NEVER create new documentation files unless explicitly requested by the user.
2025 security assessments reveal 60%+ of exploited automation tools lacked adequate input sanitization. This skill provides mandatory security patterns.
Every input MUST be validated before use:
#!/usr/bin/env bash
set -euo pipefail
# โ
REQUIRED: Validate all inputs
validate_input() {
local input="$1"
local pattern="$2"
local max_length="${3:-255}"
# Check empty
if [[ -z "$input" ]]; then
echo "Error: Input required" >&2
return 1
fi
# Check pattern
if [[ ! "$input" =~ $pattern ]]; then
echo "Error: Invalid format" >&2
return 1
fi
# Check length
if [[ ${#input} -gt $max_length ]]; then
echo "Error: Input too long (max $max_length)" >&2
return 1
fi
return 0
}
# Usage
read -r user_input
if validate_input "$user_input" '^[a-zA-Z0-9_-]+$' 50; then
process "$user_input"
else
exit 1
fi
NEVER use eval or dynamic execution with user input:
# โ DANGEROUS - Command injection vulnerability
user_input="$(cat user_file.txt)"
eval "$user_input" # NEVER DO THIS
# โ DANGEROUS - Indirect command injection
grep "$user_pattern" file.txt # If pattern is "-e /etc/passwd"
# โ
SAFE - Use -- separator
grep -- "$user_pattern" file.txt
# โ
SAFE - Use arrays
grep_args=("$user_pattern" "file.txt")
grep "${grep_args[@]}"
# โ
SAFE - Validate before use
if [[ "$user_pattern" =~ ^[a-zA-Z0-9]+$ ]]; then
grep "$user_pattern" file.txt
fi
Sanitize and validate ALL file paths:
#!/usr/bin/env bash
set -euo pipefail
# Sanitize path components
sanitize_path() {
local path="$1"
# Remove dangerous patterns
path="${path//..\/}" # Remove ../
path="${path//\/..\//}" # Remove /../
path="${path#/}" # Remove leading /
echo "$path"
}
# Validate path is within allowed directory
is_safe_path() {
local file_path="$1"
local base_dir="$2"
# Resolve to absolute paths
local real_path real_base
real_path=$(readlink -f "$file_path" 2>/dev/null) || return 1
real_base=$(readlink -f "$base_dir" 2>/dev/null) || return 1
# Check path starts with base
[[ "$real_path" == "$real_base"/* ]]
}
# Usage
user_file=$(sanitize_path "$user_input")
if is_safe_path "/var/app/uploads/$user_file" "/var/app/uploads"; then
cat "/var/app/uploads/$user_file"
else
echo "Error: Access denied" >&2
exit 1
fi
Never use predictable temp file names:
# โ DANGEROUS - Race condition vulnerability
temp_file="/tmp/myapp.tmp"
echo "data" > "$temp_file" # Can be symlinked by attacker
# โ DANGEROUS - Predictable name
temp_file="/tmp/myapp-$$.tmp" # PID can be guessed
# โ
SAFE - Use mktemp
temp_file=$(mktemp)
chmod 600 "$temp_file" # Owner-only permissions
echo "data" > "$temp_file"
# โ
SAFE - Automatic cleanup
readonly TEMP_FILE=$(mktemp)
trap 'rm -f "$TEMP_FILE"' EXIT INT TERM
# โ
SAFE - Temp directory
readonly TEMP_DIR=$(mktemp -d)
trap 'rm -rf "$TEMP_DIR"' EXIT INT TERM
chmod 700 "$TEMP_DIR"
NEVER hardcode secrets or expose them:
# โ DANGEROUS - Hardcoded secrets
DB_PASSWORD="supersecret123"
# โ DANGEROUS - Secrets in environment (visible in ps)
export DB_PASSWORD="supersecret123"
# โ
SAFE - Read from secure file
if [[ -f /run/secrets/db_password ]]; then
DB_PASSWORD=$(< /run/secrets/db_password)
chmod 600 /run/secrets/db_password
else
echo "Error: Secret not found" >&2
exit 1
fi
# โ
SAFE - Use cloud secret managers
get_secret() {
local secret_name="$1"
# AWS Secrets Manager
aws secretsmanager get-secret-value \
--secret-id "$secret_name" \
--query SecretString \
--output text
}
DB_PASSWORD=$(get_secret "production/database/password")
# โ
SAFE - Prompt for sensitive data (no echo)
read -rsp "Enter password: " password
echo # Newline after password
Follow least privilege principle:
#!/usr/bin/env bash
set -euo pipefail
# Check not running as root
if [[ $EUID -eq 0 ]]; then
echo "Error: Do not run as root" >&2
exit 1
fi
# Drop privileges if started as root
drop_privileges() {
local target_user="$1"
if [[ $EUID -eq 0 ]]; then
echo "Dropping privileges to $target_user" >&2
exec sudo -u "$target_user" "$0" "$@"
fi
}
# Run specific command with minimal privileges
run_privileged() {
local command="$1"
shift
# Use sudo with minimal scope
sudo --non-interactive \
--reset-timestamp \
"$command" "$@"
}
# Usage
drop_privileges "appuser"
Clean environment before executing:
#!/usr/bin/env bash
set -euo pipefail
# Clean environment
clean_environment() {
# Unset dangerous variables
unset IFS
unset CDPATH
unset GLOBIGNORE
# Set safe PATH (absolute paths only)
export PATH="/usr/local/bin:/usr/bin:/bin"
# Set safe IFS
IFS=$'\n\t'
}
# Execute command in clean environment
exec_clean() {
env -i \
HOME="$HOME" \
USER="$USER" \
PATH="/usr/local/bin:/usr/bin:/bin" \
"$@"
}
# Usage
clean_environment
exec_clean /usr/local/bin/myapp
Always use absolute paths to prevent PATH hijacking:
#!/usr/bin/env bash
set -euo pipefail
# โ DANGEROUS - Vulnerable to PATH manipulation
curl https://example.com/data
jq '.items[]' data.json
# โ
SAFE - Absolute paths
/usr/bin/curl https://example.com/data
/usr/bin/jq '.items[]' data.json
# โ
SAFE - Verify command location
CURL=$(command -v curl) || { echo "curl not found" >&2; exit 1; }
"$CURL" https://example.com/data
Why This Matters:
Disable history for credential operations:
#!/usr/bin/env bash
set -euo pipefail
# Disable history for this session
HISTFILE=/dev/null
export HISTFILE
# Or disable specific commands
HISTIGNORE="*password*:*secret*:*token*"
export HISTIGNORE
# Handle sensitive operations
read -rsp "Enter database password: " db_password
echo
# Use password (not logged to history)
/usr/bin/mysql -p"$db_password" -e "SELECT 1"
# Clear variable
unset db_password
Every script MUST pass these checks:
# .github/workflows/security.yml
name: Security Scan
on: [push, pull_request]
jobs:
shellcheck:
runs-on: ubuntu-latest
steps:
- uses: actions/checkout@v3
- name: ShellCheck
run: |
# Fail on security issues
find . -name "*.sh" -exec shellcheck \
--severity=error \
--enable=all \
{} +
#!/usr/bin/env bash
# security-lint.sh - Check scripts for security issues
set -euo pipefail
lint_script() {
local script="$1"
local issues=0
echo "Checking: $script"
# Check for eval
if grep -n "eval" "$script"; then
echo " โ Found eval (command injection risk)"
((issues++))
fi
# Check for hardcoded secrets
if grep -nE "(password|secret|token|key)\s*=\s*['\"][^'\"]+['\"]" "$script"; then
echo " โ Found hardcoded secrets"
((issues++))
fi
# Check for predictable temp files
if grep -n "/tmp/[a-zA-Z0-9_-]*\\.tmp" "$script"; then
echo " โ Found predictable temp file"
((issues++))
fi
# Check for unquoted variables
if grep -nE '\$[A-Z_]+[^"]' "$script"; then
echo " โ ๏ธ Found unquoted variables"
((issues++))
fi
if ((issues == 0)); then
echo " โ No security issues found"
fi
return "$issues"
}
# Scan all scripts
total_issues=0
while IFS= read -r -d '' script; do
lint_script "$script" || ((total_issues++))
done < <(find . -name "*.sh" -type f -print0)
if ((total_issues > 0)); then
echo "โ Found security issues in $total_issues scripts"
exit 1
else
echo "โ All scripts passed security checks"
fi
#!/usr/bin/env bash
#
# Secure Script Template (2025)
#
set -euo pipefail
IFS=$'\n\t'
readonly SCRIPT_DIR="$(cd "$(dirname "${BASH_SOURCE[0]}")" && pwd)"
readonly SCRIPT_NAME="$(basename "${BASH_SOURCE[0]}")"
# Security: Reject root execution
if [[ $EUID -eq 0 ]]; then
echo "Error: Do not run as root" >&2
exit 1
fi
# Security: Clean environment
export PATH="/usr/local/bin:/usr/bin:/bin"
unset CDPATH GLOBIGNORE
# Security: Secure temp file
readonly TEMP_FILE=$(mktemp)
trap 'rm -f "$TEMP_FILE"; exit' EXIT INT TERM
chmod 600 "$TEMP_FILE"
# Validate input
validate_input() {
local input="$1"
if [[ -z "$input" ]]; then
echo "Error: Input required" >&2
return 1
fi
if [[ ! "$input" =~ ^[a-zA-Z0-9_/-]+$ ]]; then
echo "Error: Invalid characters in input" >&2
return 1
fi
if [[ ${#input} -gt 255 ]]; then
echo "Error: Input too long" >&2
return 1
fi
return 0
}
# Sanitize file path
sanitize_path() {
local path="$1"
path="${path//..\/}"
path="${path#/}"
echo "$path"
}
# Main function
main() {
local user_input="${1:-}"
# Validate
if ! validate_input "$user_input"; then
exit 1
fi
# Sanitize
local safe_path
safe_path=$(sanitize_path "$user_input")
# Process safely
echo "Processing: $safe_path"
# ... your logic here ...
}
main "$@"
Security-first development is non-negotiable in 2025. Every script must pass all security checks before deployment.