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feat: Add zinit_client package to workspace
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- Add `zinit_client` package to the workspace, enabling its use
  in the SAL monorepo.  This allows for better organization and
  dependency management.
- Update `MONOREPO_CONVERSION_PLAN.md` to reflect the addition
  of `zinit_client` and its status.  This ensures the conversion
  plan stays up-to-date.
- Move `src/zinit_client/` directory to `zinit_client/` for better
   organization.  This improves the overall structure of the
   project.
- Update references to `zinit_client` to use the new path.  This
  ensures the codebase correctly links to the `zinit_client`
  package.
This commit is contained in:
Mahmoud-Emad
2025-06-22 10:59:19 +03:00
parent 74217364fa
commit 511729c477
17 changed files with 2681 additions and 455 deletions
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127
zinit_client/tests/rhai/01_basic_operations.rhai Normal file
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// Basic Zinit operations test script
// This script tests fundamental zinit client operations
// Configuration
let socket_paths = [
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock"
];
// Find available socket
let socket_path = "";
for path in socket_paths {
try {
let test_services = zinit_list(path);
socket_path = path;
print(`✓ Found working Zinit socket at: ${path}`);
break;
} catch(e) {
// Continue to next path
}
}
if socket_path == "" {
print("⚠ No working Zinit socket found. Skipping tests.");
return;
}
print("=== Basic Zinit Operations Test ===");
// Test 1: List services
print("\n1. Testing service listing...");
try {
let services = zinit_list(socket_path);
print(`✓ Successfully listed ${services.len()} services`);
if services.len() > 0 {
print(" Sample services:");
let count = 0;
for name in services.keys() {
if count >= 3 { break; }
let state = services[name];
print(` ${name}: ${state}`);
count += 1;
}
} else {
print(" No services currently managed by Zinit");
}
} catch(e) {
print(`✗ Service listing failed: ${e}`);
}
// Test 2: Service status (if services exist)
print("\n2. Testing service status...");
try {
let services = zinit_list(socket_path);
if services.len() > 0 {
let service_names = services.keys();
let first_service = service_names[0];
try {
let status = zinit_status(socket_path, first_service);
print(`✓ Status for '${first_service}':`);
print(` Name: ${status.name}`);
print(` PID: ${status.pid}`);
print(` State: ${status.state}`);
print(` Target: ${status.target}`);
if status.after.len() > 0 {
print(" Dependencies:");
for dep in status.after.keys() {
let dep_state = status.after[dep];
print(` ${dep}: ${dep_state}`);
}
}
} catch(e) {
print(`⚠ Status check failed for '${first_service}': ${e}`);
}
} else {
print(" No services available for status testing");
}
} catch(e) {
print(`✗ Service status test failed: ${e}`);
}
// Test 3: Logs functionality
print("\n3. Testing logs functionality...");
try {
let all_logs = zinit_logs_all(socket_path);
print(`✓ Retrieved ${all_logs.len()} log entries`);
if all_logs.len() > 0 {
print(" Recent log entries:");
let count = 0;
for log_entry in all_logs {
if count >= 3 { break; }
print(` ${log_entry}`);
count += 1;
}
} else {
print(" No log entries available");
}
} catch(e) {
print(`⚠ Logs retrieval failed: ${e}`);
}
// Test 4: Filtered logs
print("\n4. Testing filtered logs...");
try {
let filtered_logs = zinit_logs(socket_path, "zinit");
print(`✓ Retrieved ${filtered_logs.len()} filtered log entries`);
} catch(e) {
print(`⚠ Filtered logs retrieval failed: ${e}`);
}
// Test 5: Error handling with invalid service
print("\n5. Testing error handling...");
let invalid_service = "non-existent-service-12345";
try {
let status = zinit_status(socket_path, invalid_service);
print(`⚠ Unexpected success for non-existent service: ${status}`);
} catch(e) {
print(`✓ Correctly failed for non-existent service: ${e}`);
}
print("\n=== Basic Operations Test Complete ===");

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zinit_client/tests/rhai/02_service_lifecycle.rhai Normal file
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// Service lifecycle management test script
// This script tests creating, managing, and deleting services
// Configuration
let socket_paths = [
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock"
];
// Find available socket
let socket_path = "";
for path in socket_paths {
try {
let test_services = zinit_list(path);
socket_path = path;
print(`✓ Found working Zinit socket at: ${path}`);
break;
} catch(e) {
// Continue to next path
}
}
if socket_path == "" {
print("⚠ No working Zinit socket found. Skipping tests.");
return;
}
print("=== Service Lifecycle Test ===");
let service_name = "rhai-lifecycle-test";
let exec_command = "echo 'Hello from Rhai lifecycle test'";
let oneshot = true;
// Clean up any existing service first
print("\n0. Cleaning up any existing test service...");
try {
zinit_stop(socket_path, service_name);
zinit_forget(socket_path, service_name);
zinit_delete_service(socket_path, service_name);
print("✓ Cleanup completed");
} catch(e) {
print(" (Cleanup errors are expected if service doesn't exist)");
}
// Test 1: Service creation
print("\n1. Testing service creation...");
try {
let create_result = zinit_create_service(socket_path, service_name, exec_command, oneshot);
print(`✓ Service created: ${create_result}`);
} catch(e) {
print(`✗ Service creation failed: ${e}`);
print("⚠ Remaining tests will be skipped");
return;
}
// Test 2: Service monitoring
print("\n2. Testing service monitoring...");
try {
let monitor_result = zinit_monitor(socket_path, service_name);
print(`✓ Service monitoring started: ${monitor_result}`);
} catch(e) {
print(`⚠ Service monitoring failed: ${e}`);
}
// Test 3: Service start
print("\n3. Testing service start...");
try {
let start_result = zinit_start(socket_path, service_name);
print(`✓ Service started: ${start_result}`);
// Wait a moment for the service to run
print(" Waiting for service to execute...");
// Note: Rhai doesn't have sleep, so we'll just continue
} catch(e) {
print(`⚠ Service start failed: ${e}`);
}
// Test 4: Service status check
print("\n4. Testing service status...");
try {
let status = zinit_status(socket_path, service_name);
print(`✓ Service status retrieved:`);
print(` Name: ${status.name}`);
print(` PID: ${status.pid}`);
print(` State: ${status.state}`);
print(` Target: ${status.target}`);
} catch(e) {
print(`⚠ Service status check failed: ${e}`);
}
// Test 5: Service configuration retrieval
print("\n5. Testing service configuration retrieval...");
try {
let config = zinit_get_service(socket_path, service_name);
print(`✓ Service configuration retrieved: ${type_of(config)}`);
print(` Config: ${config}`);
} catch(e) {
print(`⚠ Service configuration retrieval failed: ${e}`);
}
// Test 6: Service restart
print("\n6. Testing service restart...");
try {
let restart_result = zinit_restart(socket_path, service_name);
print(`✓ Service restarted: ${restart_result}`);
} catch(e) {
print(`⚠ Service restart failed: ${e}`);
}
// Test 7: Service stop
print("\n7. Testing service stop...");
try {
let stop_result = zinit_stop(socket_path, service_name);
print(`✓ Service stopped: ${stop_result}`);
} catch(e) {
print(`⚠ Service stop failed: ${e}`);
}
// Test 8: Service forget (stop monitoring)
print("\n8. Testing service forget...");
try {
let forget_result = zinit_forget(socket_path, service_name);
print(`✓ Service forgotten: ${forget_result}`);
} catch(e) {
print(`⚠ Service forget failed: ${e}`);
}
// Test 9: Service deletion
print("\n9. Testing service deletion...");
try {
let delete_result = zinit_delete_service(socket_path, service_name);
print(`✓ Service deleted: ${delete_result}`);
} catch(e) {
print(`⚠ Service deletion failed: ${e}`);
}
// Test 10: Verify service is gone
print("\n10. Verifying service deletion...");
try {
let status = zinit_status(socket_path, service_name);
print(`⚠ Service still exists after deletion: ${status}`);
} catch(e) {
print(`✓ Service correctly removed: ${e}`);
}
print("\n=== Service Lifecycle Test Complete ===");

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zinit_client/tests/rhai/03_signal_management.rhai Normal file
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// Signal management and kill functionality test script
// This script tests sending signals to services
// Configuration
let socket_paths = [
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock"
];
// Find available socket
let socket_path = "";
for path in socket_paths {
try {
let test_services = zinit_list(path);
socket_path = path;
print(`✓ Found working Zinit socket at: ${path}`);
break;
} catch(e) {
// Continue to next path
}
}
if socket_path == "" {
print("⚠ No working Zinit socket found. Skipping tests.");
return;
}
print("=== Signal Management Test ===");
let service_name = "rhai-signal-test";
let exec_command = "sleep 30"; // Long-running command for signal testing
let oneshot = false; // Not oneshot so it keeps running
// Clean up any existing service first
print("\n0. Cleaning up any existing test service...");
try {
zinit_stop(socket_path, service_name);
zinit_forget(socket_path, service_name);
zinit_delete_service(socket_path, service_name);
print("✓ Cleanup completed");
} catch(e) {
print(" (Cleanup errors are expected if service doesn't exist)");
}
// Test 1: Create long-running service for signal testing
print("\n1. Creating long-running service for signal testing...");
try {
let create_result = zinit_create_service(socket_path, service_name, exec_command, oneshot);
print(`✓ Long-running service created: ${create_result}`);
} catch(e) {
print(`✗ Service creation failed: ${e}`);
print("⚠ Signal tests will be skipped");
return;
}
// Test 2: Start the service
print("\n2. Starting the service...");
try {
let monitor_result = zinit_monitor(socket_path, service_name);
let start_result = zinit_start(socket_path, service_name);
print(`✓ Service started: ${start_result}`);
// Check if it's running
try {
let status = zinit_status(socket_path, service_name);
print(` Service state: ${status.state}`);
print(` Service PID: ${status.pid}`);
} catch(e) {
print(` Status check failed: ${e}`);
}
} catch(e) {
print(`⚠ Service start failed: ${e}`);
// Clean up and exit
try {
zinit_delete_service(socket_path, service_name);
} catch(cleanup_e) {
// Ignore cleanup errors
}
return;
}
// Test 3: Send TERM signal
print("\n3. Testing TERM signal...");
try {
let kill_result = zinit_kill(socket_path, service_name, "TERM");
print(`✓ TERM signal sent: ${kill_result}`);
// Check status after signal
try {
let status = zinit_status(socket_path, service_name);
print(` Service state after TERM: ${status.state}`);
print(` Service PID after TERM: ${status.pid}`);
} catch(e) {
print(` Status check after TERM failed: ${e}`);
}
} catch(e) {
print(`⚠ TERM signal failed: ${e}`);
}
// Test 4: Restart service for more signal testing
print("\n4. Restarting service for additional signal tests...");
try {
let restart_result = zinit_restart(socket_path, service_name);
print(`✓ Service restarted: ${restart_result}`);
// Check if it's running again
try {
let status = zinit_status(socket_path, service_name);
print(` Service state after restart: ${status.state}`);
print(` Service PID after restart: ${status.pid}`);
} catch(e) {
print(` Status check after restart failed: ${e}`);
}
} catch(e) {
print(`⚠ Service restart failed: ${e}`);
}
// Test 5: Send HUP signal
print("\n5. Testing HUP signal...");
try {
let kill_result = zinit_kill(socket_path, service_name, "HUP");
print(`✓ HUP signal sent: ${kill_result}`);
// Check status after signal
try {
let status = zinit_status(socket_path, service_name);
print(` Service state after HUP: ${status.state}`);
print(` Service PID after HUP: ${status.pid}`);
} catch(e) {
print(` Status check after HUP failed: ${e}`);
}
} catch(e) {
print(`⚠ HUP signal failed: ${e}`);
}
// Test 6: Send USR1 signal
print("\n6. Testing USR1 signal...");
try {
let kill_result = zinit_kill(socket_path, service_name, "USR1");
print(`✓ USR1 signal sent: ${kill_result}`);
// Check status after signal
try {
let status = zinit_status(socket_path, service_name);
print(` Service state after USR1: ${status.state}`);
print(` Service PID after USR1: ${status.pid}`);
} catch(e) {
print(` Status check after USR1 failed: ${e}`);
}
} catch(e) {
print(`⚠ USR1 signal failed: ${e}`);
}
// Test 7: Send KILL signal (forceful termination)
print("\n7. Testing KILL signal (forceful termination)...");
try {
let kill_result = zinit_kill(socket_path, service_name, "KILL");
print(`✓ KILL signal sent: ${kill_result}`);
// Check status after signal
try {
let status = zinit_status(socket_path, service_name);
print(` Service state after KILL: ${status.state}`);
print(` Service PID after KILL: ${status.pid}`);
} catch(e) {
print(` Status check after KILL failed: ${e}`);
}
} catch(e) {
print(`⚠ KILL signal failed: ${e}`);
}
// Test 8: Test invalid signal
print("\n8. Testing invalid signal handling...");
try {
let kill_result = zinit_kill(socket_path, service_name, "INVALID");
print(`⚠ Invalid signal unexpectedly succeeded: ${kill_result}`);
} catch(e) {
print(`✓ Invalid signal correctly rejected: ${e}`);
}
// Cleanup
print("\n9. Cleaning up test service...");
try {
zinit_stop(socket_path, service_name);
zinit_forget(socket_path, service_name);
let delete_result = zinit_delete_service(socket_path, service_name);
print(`✓ Test service cleaned up: ${delete_result}`);
} catch(e) {
print(`⚠ Cleanup failed: ${e}`);
}
print("\n=== Signal Management Test Complete ===");

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zinit_client/tests/rhai/04_real_world_scenarios.rhai Normal file
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// Real-world scenarios test script
// This script tests practical zinit usage scenarios
// Configuration
let socket_paths = [
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock"
];
// Find available socket
let socket_path = "";
for path in socket_paths {
try {
let test_services = zinit_list(path);
socket_path = path;
print(`✓ Found working Zinit socket at: ${path}`);
break;
} catch(e) {
// Continue to next path
}
}
if socket_path == "" {
print("⚠ No working Zinit socket found. Skipping tests.");
return;
}
print("=== Real-World Scenarios Test ===");
// Scenario 1: Web server simulation
print("\n=== Scenario 1: Web Server Simulation ===");
let web_service = "rhai-web-server";
let web_command = "python3 -m http.server 8080";
let web_oneshot = false;
// Clean up first
try {
zinit_stop(socket_path, web_service);
zinit_forget(socket_path, web_service);
zinit_delete_service(socket_path, web_service);
} catch(e) {
// Ignore cleanup errors
}
print("1. Creating web server service...");
try {
let create_result = zinit_create_service(socket_path, web_service, web_command, web_oneshot);
print(`✓ Web server service created: ${create_result}`);
print("2. Starting web server...");
zinit_monitor(socket_path, web_service);
let start_result = zinit_start(socket_path, web_service);
print(`✓ Web server started: ${start_result}`);
print("3. Checking web server status...");
let status = zinit_status(socket_path, web_service);
print(` State: ${status.state}, PID: ${status.pid}`);
print("4. Gracefully stopping web server...");
let stop_result = zinit_stop(socket_path, web_service);
print(`✓ Web server stopped: ${stop_result}`);
print("5. Cleaning up web server...");
zinit_forget(socket_path, web_service);
zinit_delete_service(socket_path, web_service);
print("✓ Web server cleaned up");
} catch(e) {
print(`⚠ Web server scenario failed: ${e}`);
// Cleanup on failure
try {
zinit_stop(socket_path, web_service);
zinit_forget(socket_path, web_service);
zinit_delete_service(socket_path, web_service);
} catch(cleanup_e) {
// Ignore cleanup errors
}
}
// Scenario 2: Batch job processing
print("\n=== Scenario 2: Batch Job Processing ===");
let batch_service = "rhai-batch-job";
let batch_command = "echo 'Processing batch job...' && sleep 2 && echo 'Batch job completed'";
let batch_oneshot = true;
// Clean up first
try {
zinit_stop(socket_path, batch_service);
zinit_forget(socket_path, batch_service);
zinit_delete_service(socket_path, batch_service);
} catch(e) {
// Ignore cleanup errors
}
print("1. Creating batch job service...");
try {
let create_result = zinit_create_service(socket_path, batch_service, batch_command, batch_oneshot);
print(`✓ Batch job service created: ${create_result}`);
print("2. Starting batch job...");
zinit_monitor(socket_path, batch_service);
let start_result = zinit_start(socket_path, batch_service);
print(`✓ Batch job started: ${start_result}`);
print("3. Monitoring batch job progress...");
let status = zinit_status(socket_path, batch_service);
print(` Initial state: ${status.state}, PID: ${status.pid}`);
// Since it's a oneshot job, it should complete automatically
print("4. Checking final status...");
try {
let final_status = zinit_status(socket_path, batch_service);
print(` Final state: ${final_status.state}, PID: ${final_status.pid}`);
} catch(e) {
print(` Status check: ${e}`);
}
print("5. Cleaning up batch job...");
zinit_forget(socket_path, batch_service);
zinit_delete_service(socket_path, batch_service);
print("✓ Batch job cleaned up");
} catch(e) {
print(`⚠ Batch job scenario failed: ${e}`);
// Cleanup on failure
try {
zinit_stop(socket_path, batch_service);
zinit_forget(socket_path, batch_service);
zinit_delete_service(socket_path, batch_service);
} catch(cleanup_e) {
// Ignore cleanup errors
}
}
// Scenario 3: Service dependency simulation
print("\n=== Scenario 3: Service Dependency Simulation ===");
let db_service = "rhai-mock-db";
let app_service = "rhai-mock-app";
let db_command = "echo 'Database started' && sleep 10";
let app_command = "echo 'Application started' && sleep 5";
// Clean up first
for service in [db_service, app_service] {
try {
zinit_stop(socket_path, service);
zinit_forget(socket_path, service);
zinit_delete_service(socket_path, service);
} catch(e) {
// Ignore cleanup errors
}
}
print("1. Creating database service...");
try {
let db_create = zinit_create_service(socket_path, db_service, db_command, false);
print(`✓ Database service created: ${db_create}`);
print("2. Creating application service...");
let app_create = zinit_create_service(socket_path, app_service, app_command, false);
print(`✓ Application service created: ${app_create}`);
print("3. Starting database first...");
zinit_monitor(socket_path, db_service);
let db_start = zinit_start(socket_path, db_service);
print(`✓ Database started: ${db_start}`);
print("4. Checking database status...");
let db_status = zinit_status(socket_path, db_service);
print(` Database state: ${db_status.state}, PID: ${db_status.pid}`);
print("5. Starting application...");
zinit_monitor(socket_path, app_service);
let app_start = zinit_start(socket_path, app_service);
print(`✓ Application started: ${app_start}`);
print("6. Checking application status...");
let app_status = zinit_status(socket_path, app_service);
print(` Application state: ${app_status.state}, PID: ${app_status.pid}`);
print("7. Stopping services in reverse order...");
zinit_stop(socket_path, app_service);
print(" Application stopped");
zinit_stop(socket_path, db_service);
print(" Database stopped");
print("8. Cleaning up services...");
for service in [app_service, db_service] {
zinit_forget(socket_path, service);
zinit_delete_service(socket_path, service);
}
print("✓ Services cleaned up");
} catch(e) {
print(`⚠ Service dependency scenario failed: ${e}`);
// Cleanup on failure
for service in [app_service, db_service] {
try {
zinit_stop(socket_path, service);
zinit_forget(socket_path, service);
zinit_delete_service(socket_path, service);
} catch(cleanup_e) {
// Ignore cleanup errors
}
}
}
// Scenario 4: Log monitoring and analysis
print("\n=== Scenario 4: Log Monitoring and Analysis ===");
print("1. Analyzing current system logs...");
try {
let all_logs = zinit_logs_all(socket_path);
print(`✓ Retrieved ${all_logs.len()} total log entries`);
if all_logs.len() > 0 {
print("2. Analyzing log patterns...");
let error_count = 0;
let warning_count = 0;
let info_count = 0;
for log_entry in all_logs {
let log_lower = log_entry.to_lower();
if log_lower.contains("error") {
error_count += 1;
} else if log_lower.contains("warn") {
warning_count += 1;
} else {
info_count += 1;
}
}
print(` Error entries: ${error_count}`);
print(` Warning entries: ${warning_count}`);
print(` Info entries: ${info_count}`);
print("3. Testing filtered log retrieval...");
let zinit_logs = zinit_logs(socket_path, "zinit");
print(`✓ Retrieved ${zinit_logs.len()} zinit-specific log entries`);
if zinit_logs.len() > 0 {
print(" Recent zinit logs:");
let count = 0;
for log_entry in zinit_logs {
if count >= 2 { break; }
print(` ${log_entry}`);
count += 1;
}
}
} else {
print(" No logs available for analysis");
}
} catch(e) {
print(`⚠ Log monitoring scenario failed: ${e}`);
}
// Scenario 5: Error recovery simulation
print("\n=== Scenario 5: Error Recovery Simulation ===");
let failing_service = "rhai-failing-service";
let failing_command = "exit 1"; // Command that always fails
// Clean up first
try {
zinit_stop(socket_path, failing_service);
zinit_forget(socket_path, failing_service);
zinit_delete_service(socket_path, failing_service);
} catch(e) {
// Ignore cleanup errors
}
print("1. Creating service that will fail...");
try {
let create_result = zinit_create_service(socket_path, failing_service, failing_command, true);
print(`✓ Failing service created: ${create_result}`);
print("2. Starting failing service...");
zinit_monitor(socket_path, failing_service);
let start_result = zinit_start(socket_path, failing_service);
print(`✓ Failing service started: ${start_result}`);
print("3. Checking service status after failure...");
try {
let status = zinit_status(socket_path, failing_service);
print(` Service state: ${status.state}, PID: ${status.pid}`);
} catch(e) {
print(` Status check: ${e}`);
}
print("4. Attempting restart...");
try {
let restart_result = zinit_restart(socket_path, failing_service);
print(`✓ Restart attempted: ${restart_result}`);
} catch(e) {
print(` Restart failed as expected: ${e}`);
}
print("5. Cleaning up failing service...");
zinit_forget(socket_path, failing_service);
zinit_delete_service(socket_path, failing_service);
print("✓ Failing service cleaned up");
} catch(e) {
print(`⚠ Error recovery scenario failed: ${e}`);
// Cleanup on failure
try {
zinit_stop(socket_path, failing_service);
zinit_forget(socket_path, failing_service);
zinit_delete_service(socket_path, failing_service);
} catch(cleanup_e) {
// Ignore cleanup errors
}
}
print("\n=== Real-World Scenarios Test Complete ===");
print("✓ All scenarios tested successfully");

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zinit_client/tests/rhai/run_all_tests.rhai Normal file
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// Zinit Client Rhai Test Runner
// This script runs all zinit client Rhai tests
print("=== Zinit Client Rhai Test Suite ===");
print("Running comprehensive tests for sal-zinit-client Rhai integration");
print("");
// Configuration
let socket_paths = [
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock"
];
// Find available socket
let socket_path = "";
for path in socket_paths {
try {
let test_services = zinit_list(path);
socket_path = path;
print(`✓ Found working Zinit socket at: ${path}`);
break;
} catch(e) {
// Continue to next path
}
}
if socket_path == "" {
print("⚠ No working Zinit socket found.");
print(" Please ensure Zinit is running and accessible at one of these paths:");
for path in socket_paths {
print(` ${path}`);
}
print("");
print(" To start Zinit for testing:");
print(" sudo zinit --socket /tmp/zinit.sock");
print("");
print("⚠ All tests will be skipped.");
return;
}
print("");
print("=== Test Environment Information ===");
try {
let services = zinit_list(socket_path);
print(`Current services managed by Zinit: ${services.len()}`);
if services.len() > 0 {
print("Existing services:");
for name in services.keys() {
let state = services[name];
print(` ${name}: ${state}`);
}
}
} catch(e) {
print(`Error getting service list: ${e}`);
}
print("");
print("=== Running Test Suite ===");
// Test results tracking
let test_results = #{};
let total_tests = 0;
let passed_tests = 0;
let failed_tests = 0;
// Test 1: Basic Operations
print("\n--- Test 1: Basic Operations ---");
total_tests += 1;
try {
// Test basic listing
let services = zinit_list(socket_path);
print(`✓ Service listing: ${services.len()} services`);
// Test logs
let logs = zinit_logs_all(socket_path);
print(`✓ Log retrieval: ${logs.len()} entries`);
// Test filtered logs
let filtered_logs = zinit_logs(socket_path, "zinit");
print(`✓ Filtered logs: ${filtered_logs.len()} entries`);
test_results.basic_operations = "PASSED";
passed_tests += 1;
print("✓ Basic Operations: PASSED");
} catch(e) {
test_results.basic_operations = `FAILED: ${e}`;
failed_tests += 1;
print(`✗ Basic Operations: FAILED - ${e}`);
}
// Test 2: Service Creation and Management
print("\n--- Test 2: Service Creation and Management ---");
total_tests += 1;
let test_service = "rhai-test-runner-service";
try {
// Clean up first
try {
zinit_stop(socket_path, test_service);
zinit_forget(socket_path, test_service);
zinit_delete_service(socket_path, test_service);
} catch(e) {
// Ignore cleanup errors
}
// Create service
let create_result = zinit_create_service(socket_path, test_service, "echo 'Test service'", true);
print(`✓ Service creation: ${create_result}`);
// Monitor service
let monitor_result = zinit_monitor(socket_path, test_service);
print(`✓ Service monitoring: ${monitor_result}`);
// Start service
let start_result = zinit_start(socket_path, test_service);
print(`✓ Service start: ${start_result}`);
// Get status
let status = zinit_status(socket_path, test_service);
print(`✓ Service status: ${status.state}`);
// Stop service
let stop_result = zinit_stop(socket_path, test_service);
print(`✓ Service stop: ${stop_result}`);
// Forget service
let forget_result = zinit_forget(socket_path, test_service);
print(`✓ Service forget: ${forget_result}`);
// Delete service
let delete_result = zinit_delete_service(socket_path, test_service);
print(`✓ Service deletion: ${delete_result}`);
test_results.service_management = "PASSED";
passed_tests += 1;
print("✓ Service Management: PASSED");
} catch(e) {
test_results.service_management = `FAILED: ${e}`;
failed_tests += 1;
print(`✗ Service Management: FAILED - ${e}`);
// Cleanup on failure
try {
zinit_stop(socket_path, test_service);
zinit_forget(socket_path, test_service);
zinit_delete_service(socket_path, test_service);
} catch(cleanup_e) {
// Ignore cleanup errors
}
}
// Test 3: Signal Handling
print("\n--- Test 3: Signal Handling ---");
total_tests += 1;
let signal_service = "rhai-signal-test-service";
try {
// Clean up first
try {
zinit_stop(socket_path, signal_service);
zinit_forget(socket_path, signal_service);
zinit_delete_service(socket_path, signal_service);
} catch(e) {
// Ignore cleanup errors
}
// Create long-running service
let create_result = zinit_create_service(socket_path, signal_service, "sleep 10", false);
print(`✓ Signal test service created: ${create_result}`);
// Start service
zinit_monitor(socket_path, signal_service);
let start_result = zinit_start(socket_path, signal_service);
print(`✓ Signal test service started: ${start_result}`);
// Send TERM signal
let kill_result = zinit_kill(socket_path, signal_service, "TERM");
print(`✓ TERM signal sent: ${kill_result}`);
// Check status after signal
try {
let status = zinit_status(socket_path, signal_service);
print(`✓ Status after signal: ${status.state}`);
} catch(e) {
print(` Status check: ${e}`);
}
// Cleanup
zinit_stop(socket_path, signal_service);
zinit_forget(socket_path, signal_service);
zinit_delete_service(socket_path, signal_service);
test_results.signal_handling = "PASSED";
passed_tests += 1;
print("✓ Signal Handling: PASSED");
} catch(e) {
test_results.signal_handling = `FAILED: ${e}`;
failed_tests += 1;
print(`✗ Signal Handling: FAILED - ${e}`);
// Cleanup on failure
try {
zinit_stop(socket_path, signal_service);
zinit_forget(socket_path, signal_service);
zinit_delete_service(socket_path, signal_service);
} catch(cleanup_e) {
// Ignore cleanup errors
}
}
// Test 4: Error Handling
print("\n--- Test 4: Error Handling ---");
total_tests += 1;
try {
// Test with non-existent service
try {
let status = zinit_status(socket_path, "non-existent-service-12345");
print("⚠ Unexpected success for non-existent service");
test_results.error_handling = "FAILED: Should have failed for non-existent service";
failed_tests += 1;
} catch(e) {
print(`✓ Correctly failed for non-existent service: ${e}`);
test_results.error_handling = "PASSED";
passed_tests += 1;
print("✓ Error Handling: PASSED");
}
} catch(e) {
test_results.error_handling = `FAILED: ${e}`;
failed_tests += 1;
print(`✗ Error Handling: FAILED - ${e}`);
}
// Test 5: Configuration Retrieval
print("\n--- Test 5: Configuration Retrieval ---");
total_tests += 1;
try {
let services = zinit_list(socket_path);
if services.len() > 0 {
let service_names = services.keys();
let first_service = service_names[0];
try {
let config = zinit_get_service(socket_path, first_service);
print(`✓ Configuration retrieved for '${first_service}': ${type_of(config)}`);
test_results.config_retrieval = "PASSED";
passed_tests += 1;
print("✓ Configuration Retrieval: PASSED");
} catch(e) {
print(`⚠ Configuration retrieval failed: ${e}`);
test_results.config_retrieval = `FAILED: ${e}`;
failed_tests += 1;
print("✗ Configuration Retrieval: FAILED");
}
} else {
print("⚠ No services available for configuration test");
test_results.config_retrieval = "SKIPPED: No services available";
print("⚠ Configuration Retrieval: SKIPPED");
}
} catch(e) {
test_results.config_retrieval = `FAILED: ${e}`;
failed_tests += 1;
print(`✗ Configuration Retrieval: FAILED - ${e}`);
}
// Test Summary
print("\n=== Test Summary ===");
print(`Total tests: ${total_tests}`);
print(`Passed: ${passed_tests}`);
print(`Failed: ${failed_tests}`);
print(`Success rate: ${(passed_tests * 100 / total_tests).round()}%`);
print("\nDetailed Results:");
for test_name in test_results.keys() {
let result = test_results[test_name];
print(` ${test_name}: ${result}`);
}
if failed_tests == 0 {
print("\n🎉 All tests passed! Zinit client Rhai integration is working correctly.");
} else {
print(`\n⚠ ${failed_tests} test(s) failed. Please check the errors above.`);
}
print("\n=== Zinit Client Rhai Test Suite Complete ===");

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zinit_client/tests/rhai_integration_tests.rs Normal file
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use rhai::{Engine, EvalAltResult};
use sal_zinit_client::rhai::register_zinit_module;
use std::path::Path;
/// Helper function to create a Rhai engine with zinit functions registered
fn create_zinit_engine() -> Result<Engine, Box<EvalAltResult>> {
let mut engine = Engine::new();
register_zinit_module(&mut engine)?;
Ok(engine)
}
/// Helper function to check if a zinit socket is available
fn get_available_socket_path() -> Option<String> {
let common_paths = vec![
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock",
];
for path in common_paths {
if Path::new(path).exists() {
println!("✓ Found Zinit socket at: {}", path);
return Some(path.to_string());
}
}
println!("⚠ No Zinit socket found. Rhai integration tests will be skipped.");
None
}
#[tokio::test]
async fn test_rhai_zinit_list() {
if let Some(socket_path) = get_available_socket_path() {
let engine = create_zinit_engine().expect("Failed to create Rhai engine");
let script = format!(
r#"
let socket_path = "{}";
let services = zinit_list(socket_path);
services
"#,
socket_path
);
let result: Result<rhai::Map, Box<EvalAltResult>> = engine.eval(&script);
match result {
Ok(services) => {
println!("✓ Rhai zinit_list returned {} services", services.len());
// Verify it's a proper map with valid service data
// Verify all service names are non-empty strings
for (name, _state) in services.iter() {
assert!(!name.is_empty(), "Service name should not be empty");
}
// Print some services for debugging
for (name, state) in services.iter().take(3) {
println!(" Service: {} -> {:?}", name, state);
}
}
Err(e) => {
println!("⚠ Rhai zinit_list failed: {}", e);
// Don't fail the test - might be expected
}
}
} else {
println!("⚠ Skipping test_rhai_zinit_list: No Zinit socket available");
}
}
#[tokio::test]
async fn test_rhai_service_management() {
if let Some(socket_path) = get_available_socket_path() {
let engine = create_zinit_engine().expect("Failed to create Rhai engine");
let script = format!(
r#"
let socket_path = "{}";
let service_name = "rhai-test-service";
let exec_command = "echo 'Hello from Rhai test'";
let oneshot = true;
// Clean up any existing service first
try {{
zinit_stop(socket_path, service_name);
zinit_forget(socket_path, service_name);
zinit_delete_service(socket_path, service_name);
}} catch(e) {{
// Ignore cleanup errors
}}
let results = #{{}};
// Test service creation
try {{
let create_result = zinit_create_service(socket_path, service_name, exec_command, oneshot);
results.create = create_result;
// Test service monitoring
try {{
let monitor_result = zinit_monitor(socket_path, service_name);
results.monitor = monitor_result;
// Test service start
try {{
let start_result = zinit_start(socket_path, service_name);
results.start = start_result;
// Test service status
try {{
let status_result = zinit_status(socket_path, service_name);
results.status = status_result;
}} catch(e) {{
results.status_error = e.to_string();
}}
// Test service stop
try {{
let stop_result = zinit_stop(socket_path, service_name);
results.stop = stop_result;
}} catch(e) {{
results.stop_error = e.to_string();
}}
}} catch(e) {{
results.start_error = e.to_string();
}}
// Test forget
try {{
let forget_result = zinit_forget(socket_path, service_name);
results.forget = forget_result;
}} catch(e) {{
results.forget_error = e.to_string();
}}
}} catch(e) {{
results.monitor_error = e.to_string();
}}
// Test service deletion
try {{
let delete_result = zinit_delete_service(socket_path, service_name);
results.delete = delete_result;
}} catch(e) {{
results.delete_error = e.to_string();
}}
}} catch(e) {{
results.create_error = e.to_string();
}}
results
"#,
socket_path
);
let result: Result<rhai::Map, Box<EvalAltResult>> = engine.eval(&script);
match result {
Ok(results) => {
println!("✓ Rhai service management test completed");
for (operation, result) in results.iter() {
println!(" {}: {:?}", operation, result);
}
// Verify we got meaningful results from service management operations
assert!(
!results.is_empty(),
"Should have results from service operations"
);
// Check that we attempted service creation (success or error)
assert!(
results.contains_key("create") || results.contains_key("create_error"),
"Should have attempted service creation"
);
}
Err(e) => {
println!("⚠ Rhai service management test failed: {}", e);
}
}
} else {
println!("⚠ Skipping test_rhai_service_management: No Zinit socket available");
}
}
#[tokio::test]
async fn test_rhai_logs_functionality() {
if let Some(socket_path) = get_available_socket_path() {
let engine = create_zinit_engine().expect("Failed to create Rhai engine");
let script = format!(
r#"
let socket_path = "{}";
let results = #{{}};
// Test getting all logs
try {{
let all_logs = zinit_logs_all(socket_path);
results.all_logs_count = all_logs.len();
if all_logs.len() > 0 {{
results.first_log = all_logs[0];
}}
}} catch(e) {{
results.all_logs_error = e.to_string();
}}
// Test getting filtered logs
try {{
let filtered_logs = zinit_logs(socket_path, "zinit");
results.filtered_logs_count = filtered_logs.len();
}} catch(e) {{
results.filtered_logs_error = e.to_string();
}}
results
"#,
socket_path
);
let result: Result<rhai::Map, Box<EvalAltResult>> = engine.eval(&script);
match result {
Ok(results) => {
println!("✓ Rhai logs functionality test completed");
for (key, value) in results.iter() {
println!(" {}: {:?}", key, value);
}
// Verify we got meaningful results from logs operations
assert!(
!results.is_empty(),
"Should have results from logs operations"
);
// Check that we attempted to get logs (success or error)
assert!(
results.contains_key("all_logs_count")
|| results.contains_key("all_logs_error"),
"Should have attempted to retrieve all logs"
);
}
Err(e) => {
println!("⚠ Rhai logs functionality test failed: {}", e);
}
}
} else {
println!("⚠ Skipping test_rhai_logs_functionality: No Zinit socket available");
}
}
#[tokio::test]
async fn test_rhai_kill_functionality() {
if let Some(socket_path) = get_available_socket_path() {
let engine = create_zinit_engine().expect("Failed to create Rhai engine");
let script = format!(
r#"
let socket_path = "{}";
let service_name = "rhai-kill-test-service";
let exec_command = "sleep 30";
let oneshot = false;
let results = #{{}};
// Clean up any existing service first
try {{
zinit_stop(socket_path, service_name);
zinit_forget(socket_path, service_name);
zinit_delete_service(socket_path, service_name);
}} catch(e) {{
// Ignore cleanup errors
}}
// Create and start a long-running service for kill testing
try {{
let create_result = zinit_create_service(socket_path, service_name, exec_command, oneshot);
results.create = create_result;
try {{
let monitor_result = zinit_monitor(socket_path, service_name);
let start_result = zinit_start(socket_path, service_name);
results.start = start_result;
// Test kill with TERM signal
try {{
let kill_result = zinit_kill(socket_path, service_name, "TERM");
results.kill = kill_result;
}} catch(e) {{
results.kill_error = e.to_string();
}}
}} catch(e) {{
results.start_error = e.to_string();
}}
// Clean up
try {{
zinit_stop(socket_path, service_name);
zinit_forget(socket_path, service_name);
zinit_delete_service(socket_path, service_name);
}} catch(e) {{
// Ignore cleanup errors
}}
}} catch(e) {{
results.create_error = e.to_string();
}}
results
"#,
socket_path
);
let result: Result<rhai::Map, Box<EvalAltResult>> = engine.eval(&script);
match result {
Ok(results) => {
println!("✓ Rhai kill functionality test completed");
for (operation, result) in results.iter() {
println!(" {}: {:?}", operation, result);
}
// Verify we got meaningful results from kill functionality operations
assert!(
!results.is_empty(),
"Should have results from kill operations"
);
// Check that we attempted service creation for kill testing (success or error)
assert!(
results.contains_key("create") || results.contains_key("create_error"),
"Should have attempted service creation for kill testing"
);
}
Err(e) => {
println!("⚠ Rhai kill functionality test failed: {}", e);
}
}
} else {
println!("⚠ Skipping test_rhai_kill_functionality: No Zinit socket available");
}
}
#[tokio::test]
async fn test_rhai_error_handling() {
let engine = create_zinit_engine().expect("Failed to create Rhai engine");
let script = r#"
let invalid_socket = "/invalid/path/to/zinit.sock";
let results = #{};
// Test with invalid socket path
try {
let services = zinit_list(invalid_socket);
results.unexpected_success = true;
} catch(e) {
results.expected_error = e.to_string();
}
results
"#;
let result: Result<rhai::Map, Box<EvalAltResult>> = engine.eval(script);
match result {
Ok(results) => {
println!("✓ Rhai error handling test completed");
for (key, value) in results.iter() {
println!(" {}: {:?}", key, value);
}
// Should have caught an error
assert!(results.contains_key("expected_error"));
}
Err(e) => {
println!("⚠ Rhai error handling test failed: {}", e);
}
}
}
#[tokio::test]
async fn test_rhai_get_service_config() {
if let Some(socket_path) = get_available_socket_path() {
let engine = create_zinit_engine().expect("Failed to create Rhai engine");
let script = format!(
r#"
let socket_path = "{}";
let results = #{{}};
// First get list of services
try {{
let services = zinit_list(socket_path);
results.services_count = services.len();
if services.len() > 0 {{
// Get the first service name
let service_names = services.keys();
if service_names.len() > 0 {{
let first_service = service_names[0];
results.test_service = first_service;
// Try to get its configuration
try {{
let config = zinit_get_service(socket_path, first_service);
results.config_retrieved = true;
results.config_type = type_of(config);
}} catch(e) {{
results.config_error = e.to_string();
}}
}}
}}
}} catch(e) {{
results.list_error = e.to_string();
}}
results
"#,
socket_path
);
let result: Result<rhai::Map, Box<EvalAltResult>> = engine.eval(&script);
match result {
Ok(results) => {
println!("✓ Rhai get service config test completed");
for (key, value) in results.iter() {
println!(" {}: {:?}", key, value);
}
// Verify we got meaningful results from get service config operations
assert!(
!results.is_empty(),
"Should have results from config operations"
);
// Check that we attempted to list services (success or error)
assert!(
results.contains_key("services_count") || results.contains_key("list_error"),
"Should have attempted to list services for config testing"
);
}
Err(e) => {
println!("⚠ Rhai get service config test failed: {}", e);
}
}
} else {
println!("⚠ Skipping test_rhai_get_service_config: No Zinit socket available");
}
}

405
zinit_client/tests/zinit_client_tests.rs Normal file
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use sal_zinit_client::{
create_service, delete_service, forget, get_service, kill, list, logs, monitor, restart, start,
status, stop,
};
use std::path::Path;
use tokio::time::{sleep, Duration};
/// Helper function to check if a zinit socket is available
async fn get_available_socket_path() -> Option<String> {
let common_paths = vec![
"/var/run/zinit.sock",
"/tmp/zinit.sock",
"/run/zinit.sock",
"./zinit.sock",
];
for path in common_paths {
if Path::new(path).exists() {
// Try to connect and list services to verify it's working
match list(path).await {
Ok(_) => {
println!("✓ Found working Zinit socket at: {}", path);
return Some(path.to_string());
}
Err(e) => {
println!("⚠ Socket exists at {} but connection failed: {}", path, e);
}
}
}
}
println!("⚠ No working Zinit socket found. Tests will be skipped.");
None
}
#[tokio::test]
async fn test_list_services() {
if let Some(socket_path) = get_available_socket_path().await {
let result = list(&socket_path).await;
match result {
Ok(services) => {
println!("✓ Successfully listed {} services", services.len());
// Verify the result is a proper HashMap with valid structure
// Verify all service names are non-empty strings and states are valid
for (name, state) in &services {
assert!(!name.is_empty(), "Service name should not be empty");
assert!(!state.is_empty(), "Service state should not be empty");
}
// Print some services for debugging
for (name, state) in services.iter().take(3) {
println!(" Service: {} -> {}", name, state);
}
}
Err(e) => {
println!("⚠ List services failed: {}", e);
// Don't fail the test - zinit might not have any services
}
}
} else {
println!("⚠ Skipping test_list_services: No Zinit socket available");
}
}
#[tokio::test]
async fn test_service_lifecycle() {
if let Some(socket_path) = get_available_socket_path().await {
let service_name = "test-service-lifecycle";
let exec_command = "echo 'Hello from test service'";
let oneshot = true;
// Clean up any existing service first
let _ = stop(&socket_path, service_name).await;
let _ = forget(&socket_path, service_name).await;
let _ = delete_service(&socket_path, service_name).await;
// Test service creation
println!("Creating test service: {}", service_name);
let create_result = create_service(&socket_path, service_name, exec_command, oneshot).await;
match create_result {
Ok(_) => {
println!("✓ Service created successfully");
// Test service monitoring
println!("Monitoring service: {}", service_name);
let monitor_result = monitor(&socket_path, service_name).await;
match monitor_result {
Ok(_) => println!("✓ Service monitoring started"),
Err(e) => println!("⚠ Monitor failed: {}", e),
}
// Test service start
println!("Starting service: {}", service_name);
let start_result = start(&socket_path, service_name).await;
match start_result {
Ok(_) => {
println!("✓ Service started successfully");
// Wait a bit for the service to run
sleep(Duration::from_millis(500)).await;
// Test service status
println!("Getting service status: {}", service_name);
let status_result = status(&socket_path, service_name).await;
match status_result {
Ok(service_status) => {
println!("✓ Service status: {:?}", service_status.state);
assert!(!service_status.name.is_empty());
}
Err(e) => println!("⚠ Status check failed: {}", e),
}
}
Err(e) => println!("⚠ Start failed: {}", e),
}
// Test service stop
println!("Stopping service: {}", service_name);
let stop_result = stop(&socket_path, service_name).await;
match stop_result {
Ok(_) => println!("✓ Service stopped successfully"),
Err(e) => println!("⚠ Stop failed: {}", e),
}
// Test forget (stop monitoring)
println!("Forgetting service: {}", service_name);
let forget_result = forget(&socket_path, service_name).await;
match forget_result {
Ok(_) => println!("✓ Service forgotten successfully"),
Err(e) => println!("⚠ Forget failed: {}", e),
}
// Test service deletion
println!("Deleting service: {}", service_name);
let delete_result = delete_service(&socket_path, service_name).await;
match delete_result {
Ok(_) => println!("✓ Service deleted successfully"),
Err(e) => println!("⚠ Delete failed: {}", e),
}
}
Err(e) => {
println!("⚠ Service creation failed: {}", e);
// This might be expected if zinit doesn't allow service creation
}
}
} else {
println!("⚠ Skipping test_service_lifecycle: No Zinit socket available");
}
}
#[tokio::test]
async fn test_get_service_configuration() {
if let Some(socket_path) = get_available_socket_path().await {
// First, list services to find an existing one
let services_result = list(&socket_path).await;
match services_result {
Ok(services) => {
if let Some((service_name, _)) = services.iter().next() {
println!("Testing get_service for: {}", service_name);
let config_result = get_service(&socket_path, service_name).await;
match config_result {
Ok(config) => {
println!("✓ Service configuration retrieved successfully");
println!(" Config: {:?}", config);
// Verify it's a valid JSON value
assert!(config.is_object() || config.is_string() || config.is_null());
}
Err(e) => {
println!("⚠ Get service config failed: {}", e);
}
}
} else {
println!("⚠ No services available to test get_service");
}
}
Err(e) => {
println!("⚠ Could not list services for get_service test: {}", e);
}
}
} else {
println!("⚠ Skipping test_get_service_configuration: No Zinit socket available");
}
}
#[tokio::test]
async fn test_logs_functionality() {
if let Some(socket_path) = get_available_socket_path().await {
println!("Testing logs functionality");
// Test getting all logs
let logs_result = logs(&socket_path, None).await;
match logs_result {
Ok(log_entries) => {
println!("✓ Retrieved {} log entries", log_entries.len());
// Print first few log entries for verification
for (i, log_entry) in log_entries.iter().take(3).enumerate() {
println!(" Log {}: {}", i + 1, log_entry);
}
// Verify logs are valid strings - if we got them, they should be properly formatted
for log_entry in log_entries.iter().take(5) {
// Verify it's a valid string (String type guarantees valid UTF-8)
// and check it doesn't contain null bytes which would indicate corruption
assert!(
!log_entry.contains('\0'),
"Log entry should not contain null bytes"
);
}
}
Err(e) => {
println!("⚠ Logs retrieval failed: {}", e);
// This might be expected if no logs are available
}
}
// Test getting logs with a filter
let filtered_logs_result = logs(&socket_path, Some("zinit".to_string())).await;
match filtered_logs_result {
Ok(filtered_logs) => {
println!("✓ Retrieved {} filtered log entries", filtered_logs.len());
}
Err(e) => {
println!("⚠ Filtered logs retrieval failed: {}", e);
}
}
} else {
println!("⚠ Skipping test_logs_functionality: No Zinit socket available");
}
}
#[tokio::test]
async fn test_kill_signal_functionality() {
if let Some(socket_path) = get_available_socket_path().await {
let service_name = "test-kill-service";
let exec_command = "sleep 30"; // Long-running command
let oneshot = false;
// Clean up any existing service first
let _ = stop(&socket_path, service_name).await;
let _ = forget(&socket_path, service_name).await;
let _ = delete_service(&socket_path, service_name).await;
// Create and start a service for testing kill
let create_result = create_service(&socket_path, service_name, exec_command, oneshot).await;
if create_result.is_ok() {
let _ = monitor(&socket_path, service_name).await;
let start_result = start(&socket_path, service_name).await;
if start_result.is_ok() {
// Wait for service to start
sleep(Duration::from_millis(1000)).await;
// Test kill with TERM signal
println!("Testing kill with TERM signal");
let kill_result = kill(&socket_path, service_name, Some("TERM")).await;
match kill_result {
Ok(_) => {
println!("✓ Kill signal sent successfully");
// Wait a bit and check if service stopped
sleep(Duration::from_millis(500)).await;
let status_result = status(&socket_path, service_name).await;
match status_result {
Ok(service_status) => {
println!(" Service state after kill: {:?}", service_status.state);
}
Err(e) => println!(" Status check after kill failed: {}", e),
}
}
Err(e) => {
println!("⚠ Kill signal failed: {}", e);
}
}
}
// Clean up
let _ = stop(&socket_path, service_name).await;
let _ = forget(&socket_path, service_name).await;
let _ = delete_service(&socket_path, service_name).await;
} else {
println!("⚠ Could not create test service for kill test");
}
} else {
println!("⚠ Skipping test_kill_signal_functionality: No Zinit socket available");
}
}
#[tokio::test]
async fn test_restart_functionality() {
if let Some(socket_path) = get_available_socket_path().await {
let service_name = "test-restart-service";
let exec_command = "echo 'Restart test'";
let oneshot = true;
// Clean up any existing service first
let _ = stop(&socket_path, service_name).await;
let _ = forget(&socket_path, service_name).await;
let _ = delete_service(&socket_path, service_name).await;
// Create and start a service for testing restart
let create_result = create_service(&socket_path, service_name, exec_command, oneshot).await;
if create_result.is_ok() {
let _ = monitor(&socket_path, service_name).await;
let start_result = start(&socket_path, service_name).await;
if start_result.is_ok() {
// Wait for service to complete (it's oneshot)
sleep(Duration::from_millis(1000)).await;
// Test restart
println!("Testing service restart");
let restart_result = restart(&socket_path, service_name).await;
match restart_result {
Ok(_) => {
println!("✓ Service restarted successfully");
// Wait and check status
sleep(Duration::from_millis(500)).await;
let status_result = status(&socket_path, service_name).await;
match status_result {
Ok(service_status) => {
println!(
" Service state after restart: {:?}",
service_status.state
);
}
Err(e) => println!(" Status check after restart failed: {}", e),
}
}
Err(e) => {
println!("⚠ Restart failed: {}", e);
}
}
}
// Clean up
let _ = stop(&socket_path, service_name).await;
let _ = forget(&socket_path, service_name).await;
let _ = delete_service(&socket_path, service_name).await;
} else {
println!("⚠ Could not create test service for restart test");
}
} else {
println!("⚠ Skipping test_restart_functionality: No Zinit socket available");
}
}
#[tokio::test]
async fn test_error_handling() {
if let Some(socket_path) = get_available_socket_path().await {
// Test operations on non-existent service
let non_existent_service = "non-existent-service-12345";
println!("Testing error handling with non-existent service");
// Test status of non-existent service
let status_result = status(&socket_path, non_existent_service).await;
match status_result {
Ok(_) => println!("⚠ Unexpected success for non-existent service status"),
Err(e) => {
println!("✓ Correctly failed for non-existent service status: {}", e);
assert!(!e.to_string().is_empty());
}
}
// Test stop of non-existent service
let stop_result = stop(&socket_path, non_existent_service).await;
match stop_result {
Ok(_) => println!("⚠ Unexpected success for non-existent service stop"),
Err(e) => {
println!("✓ Correctly failed for non-existent service stop: {}", e);
}
}
} else {
println!("⚠ Skipping test_error_handling: No Zinit socket available");
}
}
#[tokio::test]
async fn test_invalid_socket_path() {
let invalid_socket = "/invalid/path/to/zinit.sock";
println!("Testing with invalid socket path: {}", invalid_socket);
let result = list(invalid_socket).await;
match result {
Ok(_) => {
println!("⚠ Unexpected success with invalid socket path");
}
Err(e) => {
println!("✓ Correctly failed with invalid socket: {}", e);
assert!(!e.to_string().is_empty());
}
}
}