--- name: bats-testing-patterns description: Master Bash Automated Testing System (Bats) for comprehensive shell script testing. Use when writing tests for shell scripts, CI/CD pipelines, or requiring test-driven development of shell utilities. --- # Bats Testing Patterns Comprehensive guidance for writing comprehensive unit tests for shell scripts using Bats (Bash Automated Testing System), including test patterns, fixtures, and best practices for production-grade shell testing. ## When to Use This Skill - Writing unit tests for shell scripts - Implementing test-driven development (TDD) for scripts - Setting up automated testing in CI/CD pipelines - Testing edge cases and error conditions - Validating behavior across different shell environments - Building maintainable test suites for scripts - Creating fixtures for complex test scenarios - Testing multiple shell dialects (bash, sh, dash) ## Detailed patterns and worked examples Detailed pattern documentation lives in `references/details.md`. Read that file when the navigation tier above is insufficient. ## Testing Error Conditions ```bash #!/usr/bin/env bats @test "Function fails with missing file" { run my_function "/nonexistent/file.txt" [ "$status" -ne 0 ] [[ "$output" == *"not found"* ]] } @test "Function fails with invalid input" { run my_function "" [ "$status" -ne 0 ] } @test "Function fails with permission denied" { touch "$TMPDIR/readonly.txt" chmod 000 "$TMPDIR/readonly.txt" run my_function "$TMPDIR/readonly.txt" [ "$status" -ne 0 ] chmod 644 "$TMPDIR/readonly.txt" # Cleanup } @test "Function provides helpful error message" { run my_function --invalid-option [ "$status" -ne 0 ] [[ "$output" == *"Usage:"* ]] } ``` ### Testing with Dependencies ```bash #!/usr/bin/env bats setup() { # Check for required tools if ! command -v jq &>/dev/null; then skip "jq is not installed" fi export SCRIPT="${BATS_TEST_DIRNAME}/../bin/script.sh" } @test "JSON parsing works" { skip_if ! command -v jq &>/dev/null run my_json_parser '{"key": "value"}' [ "$status" -eq 0 ] } ``` ### Testing Shell Compatibility ```bash #!/usr/bin/env bats @test "Script works in bash" { bash "${BATS_TEST_DIRNAME}/../bin/script.sh" arg1 } @test "Script works in sh (POSIX)" { sh "${BATS_TEST_DIRNAME}/../bin/script.sh" arg1 } @test "Script works in dash" { if command -v dash &>/dev/null; then dash "${BATS_TEST_DIRNAME}/../bin/script.sh" arg1 else skip "dash not installed" fi } ``` ### Parallel Execution ```bash #!/usr/bin/env bats @test "Multiple independent operations" { run bash -c 'for i in {1..10}; do my_operation "$i" & done wait' [ "$status" -eq 0 ] } @test "Concurrent file operations" { for i in {1..5}; do my_function "$TMPDIR/file$i" & done wait [ -f "$TMPDIR/file1" ] [ -f "$TMPDIR/file5" ] } ``` ## Test Helper Pattern ### test_helper.sh ```bash #!/usr/bin/env bash # Source script under test export SCRIPT_DIR="${BATS_TEST_DIRNAME%/*}/bin" # Common test utilities assert_file_exists() { if [ ! -f "$1" ]; then echo "Expected file to exist: $1" return 1 fi } assert_file_equals() { local file="$1" local expected="$2" if [ ! -f "$file" ]; then echo "File does not exist: $file" return 1 fi local actual=$(cat "$file") if [ "$actual" != "$expected" ]; then echo "File contents do not match" echo "Expected: $expected" echo "Actual: $actual" return 1 fi } # Create temporary test directory setup_test_dir() { export TEST_DIR=$(mktemp -d) } cleanup_test_dir() { rm -rf "$TEST_DIR" } ``` ## Integration with CI/CD ### GitHub Actions Workflow ```yaml name: Tests on: [push, pull_request] jobs: test: runs-on: ubuntu-latest steps: - uses: actions/checkout@v3 - name: Install Bats run: | npm install --global bats - name: Run Tests run: | bats tests/*.bats - name: Run Tests with Tap Reporter run: | bats tests/*.bats --tap | tee test_output.tap ``` ### Makefile Integration ```makefile .PHONY: test test-verbose test-tap test: bats tests/*.bats test-verbose: bats tests/*.bats --verbose test-tap: bats tests/*.bats --tap test-parallel: bats tests/*.bats --parallel 4 coverage: test # Optional: Generate coverage reports ``` ## Best Practices 1. **Test one thing per test** - Single responsibility principle 2. **Use descriptive test names** - Clearly states what is being tested 3. **Clean up after tests** - Always remove temporary files in teardown 4. **Test both success and failure paths** - Don't just test happy path 5. **Mock external dependencies** - Isolate unit under test 6. **Use fixtures for complex data** - Makes tests more readable 7. **Run tests in CI/CD** - Catch regressions early 8. **Test across shell dialects** - Ensure portability 9. **Keep tests fast** - Run in parallel when possible 10. **Document complex test setup** - Explain unusual patterns