Add cross-repository consistency integration tests

backend/crates/integration-tests/src/cross_repository_consistency_tests.rs

@@ -0,0 +1,490 @@
+/*
+ * This file is part of Sharenet.
+ * 
+ * Sharenet is licensed under the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
+ * 
+ * You may obtain a copy of the license at:
+ * https://creativecommons.org/licenses/by-nc-sa/4.0/
+ * 
+ * Copyright (c) 2024 Continuist <continuist02@gmail.com>
+ */
+
+use application::{Service, UseCase};
+use domain::{CreateProduct, CreateUser, Product, UpdateProduct, UpdateUser, User};
+use memory::{InMemoryUserRepository, InMemoryProductRepository};
+use postgres::{PostgresUserRepository, PostgresProductRepository};
+use sqlx::PgPool;
+use sqlx::postgres::PgPoolOptions;
+use std::env;
+use uuid::Uuid;
+use serial_test::serial;
+
+// Helper functions for test setup
+async fn setup_test_db() -> PgPool {
+    let database_url = env::var("DATABASE_URL")
+        .unwrap_or_else(|_| "postgres://postgres:password@localhost:5432/sharenet_test".to_string());
+    let pool = PgPoolOptions::new()
+        .max_connections(5)
+        .connect(&database_url)
+        .await
+        .expect("Failed to connect to test database");
+    sqlx::migrate!("../../migrations")
+        .run(&pool)
+        .await
+        .expect("Failed to run migrations");
+    cleanup_test_data(&pool).await;
+    pool
+}
+
+async fn cleanup_test_data(pool: &PgPool) {
+    let mut tx = pool.begin().await.expect("Failed to begin transaction");
+    sqlx::query("DELETE FROM products").execute(&mut *tx).await.expect("Failed to delete products");
+    sqlx::query("DELETE FROM users").execute(&mut *tx).await.expect("Failed to delete users");
+    tx.commit().await.expect("Failed to commit cleanup transaction");
+}
+
+fn unique_test_data(prefix: &str) -> (String, String) {
+    let id = Uuid::new_v4().to_string()[..8].to_string();
+    (format!("{}_{}", prefix, id), format!("{}_test@example.com", prefix))
+}
+
+// Test data structures for comparison
+#[derive(Debug, PartialEq, Clone)]
+struct UserData {
+    username: String,
+    email: String,
+}
+
+impl From<&User> for UserData {
+    fn from(user: &User) -> Self {
+        Self {
+            username: user.username().to_string(),
+            email: user.email().to_string(),
+        }
+    }
+}
+
+#[derive(Debug, PartialEq, Clone)]
+struct ProductData {
+    name: String,
+    description: String,
+}
+
+impl From<&Product> for ProductData {
+    fn from(product: &Product) -> Self {
+        Self {
+            name: product.name().to_string(),
+            description: product.description().to_string(),
+        }
+    }
+}
+
+// Helper function to compare user lists (ignoring IDs and timestamps)
+fn compare_user_lists(memory_users: &[User], postgres_users: &[User]) {
+    let memory_data: Vec<UserData> = memory_users.iter().map(UserData::from).collect();
+    let postgres_data: Vec<UserData> = postgres_users.iter().map(UserData::from).collect();
+    
+    assert_eq!(memory_data.len(), postgres_data.len(), "User count mismatch");
+    
+    // Sort by username for consistent comparison
+    let mut memory_sorted = memory_data.clone();
+    let mut postgres_sorted = postgres_data.clone();
+    memory_sorted.sort_by(|a, b| a.username.cmp(&b.username));
+    postgres_sorted.sort_by(|a, b| a.username.cmp(&b.username));
+    
+    assert_eq!(memory_sorted, postgres_sorted, "User data mismatch");
+}
+
+// Helper function to compare product lists (ignoring IDs and timestamps)
+fn compare_product_lists(memory_products: &[Product], postgres_products: &[Product]) {
+    let memory_data: Vec<ProductData> = memory_products.iter().map(ProductData::from).collect();
+    let postgres_data: Vec<ProductData> = postgres_products.iter().map(ProductData::from).collect();
+    
+    assert_eq!(memory_data.len(), postgres_data.len(), "Product count mismatch");
+    
+    // Sort by name for consistent comparison
+    let mut memory_sorted = memory_data.clone();
+    let mut postgres_sorted = postgres_data.clone();
+    memory_sorted.sort_by(|a, b| a.name.cmp(&b.name));
+    postgres_sorted.sort_by(|a, b| a.name.cmp(&b.name));
+    
+    assert_eq!(memory_sorted, postgres_sorted, "Product data mismatch");
+}
+
+#[tokio::test]
+#[serial]
+async fn test_user_crud_consistency() {
+    let pool = setup_test_db().await;
+    
+    // Create services
+    let memory_user_repo = InMemoryUserRepository::new();
+    let postgres_user_repo = PostgresUserRepository::new(pool.clone());
+    let memory_user_service = Service::new(memory_user_repo);
+    let postgres_user_service = Service::new(postgres_user_repo);
+
+    // Test data
+    let (username1, email1) = unique_test_data("consistency_user1");
+    let (username2, email2) = unique_test_data("consistency_user2");
+
+    // Test 1: Create users in both repositories
+    let create_user1 = CreateUser::new(username1.clone(), email1.clone()).unwrap();
+    let create_user2 = CreateUser::new(username2.clone(), email2.clone()).unwrap();
+
+    let memory_user1 = memory_user_service.create(create_user1.clone()).await.unwrap();
+    let memory_user2 = memory_user_service.create(create_user2.clone()).await.unwrap();
+    
+    let postgres_user1 = postgres_user_service.create(create_user1).await.unwrap();
+    let postgres_user2 = postgres_user_service.create(create_user2).await.unwrap();
+
+    // Verify created users have same data (ignoring IDs and timestamps)
+    assert_eq!(memory_user1.username(), postgres_user1.username());
+    assert_eq!(memory_user1.email(), postgres_user1.email());
+    assert_eq!(memory_user2.username(), postgres_user2.username());
+    assert_eq!(memory_user2.email(), postgres_user2.email());
+
+    // Test 2: List users and compare
+    let memory_users = memory_user_service.list().await.unwrap();
+    let postgres_users = postgres_user_service.list().await.unwrap();
+    
+    compare_user_lists(&memory_users, &postgres_users);
+
+    // Test 3: Get individual users
+    let memory_retrieved1 = memory_user_service.get(memory_user1.id()).await.unwrap();
+    let postgres_retrieved1 = postgres_user_service.get(postgres_user1.id()).await.unwrap();
+    
+    assert_eq!(memory_retrieved1.username(), postgres_retrieved1.username());
+    assert_eq!(memory_retrieved1.email(), postgres_retrieved1.email());
+
+    // Test 4: Update users
+    let update_data = UpdateUser::new(Some("updated_username".to_string()), Some("updated@example.com".to_string())).unwrap();
+    
+    let memory_updated = memory_user_service.update(memory_user1.id(), update_data.clone()).await.unwrap();
+    let postgres_updated = postgres_user_service.update(postgres_user1.id(), update_data).await.unwrap();
+    
+    assert_eq!(memory_updated.username(), postgres_updated.username());
+    assert_eq!(memory_updated.email(), postgres_updated.email());
+
+    // Test 5: Delete users
+    memory_user_service.delete(memory_user1.id()).await.unwrap();
+    postgres_user_service.delete(postgres_user1.id()).await.unwrap();
+
+    // Verify deletion
+    let memory_users_after_delete = memory_user_service.list().await.unwrap();
+    let postgres_users_after_delete = postgres_user_service.list().await.unwrap();
+    
+    assert_eq!(memory_users_after_delete.len(), 1);
+    assert_eq!(postgres_users_after_delete.len(), 1);
+    compare_user_lists(&memory_users_after_delete, &postgres_users_after_delete);
+}
+
+#[tokio::test]
+#[serial]
+async fn test_product_crud_consistency() {
+    let pool = setup_test_db().await;
+    
+    // Create services
+    let memory_product_repo = InMemoryProductRepository::new();
+    let postgres_product_repo = PostgresProductRepository::new(pool.clone());
+    let memory_product_service = Service::new(memory_product_repo);
+    let postgres_product_service = Service::new(postgres_product_repo);
+
+    // Test data
+    let (name1, _) = unique_test_data("consistency_product1");
+    let (name2, _) = unique_test_data("consistency_product2");
+    let description1 = "Test product description 1";
+    let description2 = "Test product description 2";
+
+    // Test 1: Create products in both repositories
+    let create_product1 = CreateProduct::new(name1.clone(), description1.to_string()).unwrap();
+    let create_product2 = CreateProduct::new(name2.clone(), description2.to_string()).unwrap();
+
+    let memory_product1 = memory_product_service.create(create_product1.clone()).await.unwrap();
+    let memory_product2 = memory_product_service.create(create_product2.clone()).await.unwrap();
+    
+    let postgres_product1 = postgres_product_service.create(create_product1).await.unwrap();
+    let postgres_product2 = postgres_product_service.create(create_product2).await.unwrap();
+
+    // Verify created products have same data (ignoring IDs and timestamps)
+    assert_eq!(memory_product1.name(), postgres_product1.name());
+    assert_eq!(memory_product1.description(), postgres_product1.description());
+    assert_eq!(memory_product2.name(), postgres_product2.name());
+    assert_eq!(memory_product2.description(), postgres_product2.description());
+
+    // Test 2: List products and compare
+    let memory_products = memory_product_service.list().await.unwrap();
+    let postgres_products = postgres_product_service.list().await.unwrap();
+    
+    compare_product_lists(&memory_products, &postgres_products);
+
+    // Test 3: Get individual products
+    let memory_retrieved1 = memory_product_service.get(memory_product1.id()).await.unwrap();
+    let postgres_retrieved1 = postgres_product_service.get(postgres_product1.id()).await.unwrap();
+    
+    assert_eq!(memory_retrieved1.name(), postgres_retrieved1.name());
+    assert_eq!(memory_retrieved1.description(), postgres_retrieved1.description());
+
+    // Test 4: Update products
+    let update_data = UpdateProduct::new(Some("updated_product_name".to_string()), Some("updated description".to_string())).unwrap();
+    
+    let memory_updated = memory_product_service.update(memory_product1.id(), update_data.clone()).await.unwrap();
+    let postgres_updated = postgres_product_service.update(postgres_product1.id(), update_data).await.unwrap();
+    
+    assert_eq!(memory_updated.name(), postgres_updated.name());
+    assert_eq!(memory_updated.description(), postgres_updated.description());
+
+    // Test 5: Delete products
+    memory_product_service.delete(memory_product1.id()).await.unwrap();
+    postgres_product_service.delete(postgres_product1.id()).await.unwrap();
+
+    // Verify deletion
+    let memory_products_after_delete = memory_product_service.list().await.unwrap();
+    let postgres_products_after_delete = postgres_product_service.list().await.unwrap();
+    
+    assert_eq!(memory_products_after_delete.len(), 1);
+    assert_eq!(postgres_products_after_delete.len(), 1);
+    compare_product_lists(&memory_products_after_delete, &postgres_products_after_delete);
+}
+
+#[tokio::test]
+#[serial]
+async fn test_error_handling_consistency() {
+    let pool = setup_test_db().await;
+    
+    // Create services
+    let memory_user_repo = InMemoryUserRepository::new();
+    let postgres_user_repo = PostgresUserRepository::new(pool.clone());
+    let memory_user_service = Service::new(memory_user_repo);
+    let postgres_user_service = Service::new(postgres_user_repo);
+
+    let memory_product_repo = InMemoryProductRepository::new();
+    let postgres_product_repo = PostgresProductRepository::new(pool.clone());
+    let memory_product_service = Service::new(memory_product_repo);
+    let postgres_product_service = Service::new(postgres_product_repo);
+
+    // Test 1: Get non-existent user
+    let non_existent_id = Uuid::new_v4();
+    
+    let memory_user_result = memory_user_service.get(non_existent_id).await;
+    let postgres_user_result = postgres_user_service.get(non_existent_id).await;
+    
+    assert!(memory_user_result.is_err());
+    assert!(postgres_user_result.is_err());
+    
+    // Both should return NotFound error
+    assert!(matches!(memory_user_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+    assert!(matches!(postgres_user_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+
+    // Test 2: Get non-existent product
+    let memory_product_result = memory_product_service.get(non_existent_id).await;
+    let postgres_product_result = postgres_product_service.get(non_existent_id).await;
+    
+    assert!(memory_product_result.is_err());
+    assert!(postgres_product_result.is_err());
+    
+    assert!(matches!(memory_product_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+    assert!(matches!(postgres_product_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+
+    // Test 3: Update non-existent user
+    let update_data = UpdateUser::new(Some("new_username".to_string()), None).unwrap();
+    
+    let memory_update_result = memory_user_service.update(non_existent_id, update_data.clone()).await;
+    let postgres_update_result = postgres_user_service.update(non_existent_id, update_data).await;
+    
+    assert!(memory_update_result.is_err());
+    assert!(postgres_update_result.is_err());
+    
+    assert!(matches!(memory_update_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+    assert!(matches!(postgres_update_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+
+    // Test 4: Delete non-existent user
+    let memory_delete_result = memory_user_service.delete(non_existent_id).await;
+    let postgres_delete_result = postgres_user_service.delete(non_existent_id).await;
+    
+    assert!(memory_delete_result.is_err());
+    assert!(postgres_delete_result.is_err());
+    
+    assert!(matches!(memory_delete_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+    assert!(matches!(postgres_delete_result.unwrap_err(), application::ApplicationError::Domain(domain::DomainError::NotFound(_))));
+}
+
+#[tokio::test]
+#[serial]
+async fn test_validation_consistency() {
+    let pool = setup_test_db().await;
+    
+    // Create services
+    let memory_user_repo = InMemoryUserRepository::new();
+    let postgres_user_repo = PostgresUserRepository::new(pool.clone());
+    let _memory_user_service = Service::new(memory_user_repo);
+    let _postgres_user_service = Service::new(postgres_user_repo);
+
+    let memory_product_repo = InMemoryProductRepository::new();
+    let postgres_product_repo = PostgresProductRepository::new(pool.clone());
+    let _memory_product_service = Service::new(memory_product_repo);
+    let _postgres_product_service = Service::new(postgres_product_repo);
+
+    // Test 1: Create user with empty username
+    let create_user_empty_username = CreateUser::new("".to_string(), "test@example.com".to_string());
+    assert!(create_user_empty_username.is_err());
+    assert!(matches!(create_user_empty_username.unwrap_err(), domain::DomainError::InvalidInput(_)));
+
+    // Test 2: Create product with empty name
+    let create_product_empty_name = CreateProduct::new("".to_string(), "description".to_string());
+    assert!(create_product_empty_name.is_err());
+    assert!(matches!(create_product_empty_name.unwrap_err(), domain::DomainError::InvalidInput(_)));
+
+    // Test 3: Update user with empty username
+    let update_user_empty_username = UpdateUser::new(Some("".to_string()), None);
+    assert!(update_user_empty_username.is_err());
+    assert!(matches!(update_user_empty_username.unwrap_err(), domain::DomainError::InvalidInput(_)));
+
+    // Test 4: Update product with empty name
+    let update_product_empty_name = UpdateProduct::new(Some("".to_string()), None);
+    assert!(update_product_empty_name.is_err());
+    assert!(matches!(update_product_empty_name.unwrap_err(), domain::DomainError::InvalidInput(_)));
+}
+
+#[tokio::test]
+#[serial]
+async fn test_concurrent_operations_consistency() {
+    let pool = setup_test_db().await;
+    
+    // Create services
+    let memory_user_repo = InMemoryUserRepository::new();
+    let postgres_user_repo = PostgresUserRepository::new(pool.clone());
+    let memory_user_service = Service::new(memory_user_repo);
+    let postgres_user_service = Service::new(postgres_user_repo);
+
+    let memory_product_repo = InMemoryProductRepository::new();
+    let postgres_product_repo = PostgresProductRepository::new(pool.clone());
+    let memory_product_service = Service::new(memory_product_repo);
+    let postgres_product_service = Service::new(postgres_product_repo);
+
+    // Test concurrent creation of multiple users and products
+    let mut memory_user_handles = Vec::new();
+    let mut postgres_user_handles = Vec::new();
+    let mut memory_product_handles = Vec::new();
+    let mut postgres_product_handles = Vec::new();
+
+    // Spawn concurrent operations
+    for i in 0..5 {
+        let (username, email) = unique_test_data(&format!("concurrent_user_{}", i));
+        let create_user = CreateUser::new(username, email).unwrap();
+        
+        let memory_service = memory_user_service.clone();
+        let postgres_service = postgres_user_service.clone();
+        let create_user_for_memory = create_user.clone();
+        let create_user_for_postgres = create_user;
+        
+        memory_user_handles.push(tokio::spawn(async move {
+            memory_service.create(create_user_for_memory).await
+        }));
+        
+        postgres_user_handles.push(tokio::spawn(async move {
+            postgres_service.create(create_user_for_postgres).await
+        }));
+
+        let (name, _) = unique_test_data(&format!("concurrent_product_{}", i));
+        let create_product = CreateProduct::new(name, format!("Description {}", i)).unwrap();
+        
+        let memory_service = memory_product_service.clone();
+        let postgres_service = postgres_product_service.clone();
+        let create_product_for_memory = create_product.clone();
+        let create_product_for_postgres = create_product;
+        
+        memory_product_handles.push(tokio::spawn(async move {
+            memory_service.create(create_product_for_memory).await
+        }));
+        
+        postgres_product_handles.push(tokio::spawn(async move {
+            postgres_service.create(create_product_for_postgres).await
+        }));
+    }
+
+    // Wait for all operations to complete
+    for handle in memory_user_handles {
+        handle.await.unwrap().unwrap();
+    }
+    for handle in postgres_user_handles {
+        handle.await.unwrap().unwrap();
+    }
+    for handle in memory_product_handles {
+        handle.await.unwrap().unwrap();
+    }
+    for handle in postgres_product_handles {
+        handle.await.unwrap().unwrap();
+    }
+
+    // Verify both repositories have the same data
+    let memory_users = memory_user_service.list().await.unwrap();
+    let postgres_users = postgres_user_service.list().await.unwrap();
+    let memory_products = memory_product_service.list().await.unwrap();
+    let postgres_products = postgres_product_service.list().await.unwrap();
+
+    assert_eq!(memory_users.len(), 5);
+    assert_eq!(postgres_users.len(), 5);
+    assert_eq!(memory_products.len(), 5);
+    assert_eq!(postgres_products.len(), 5);
+
+    compare_user_lists(&memory_users, &postgres_users);
+    compare_product_lists(&memory_products, &postgres_products);
+}
+
+#[tokio::test]
+#[serial]
+async fn test_data_persistence_consistency() {
+    let pool = setup_test_db().await;
+    
+    // Create services
+    let memory_user_repo = InMemoryUserRepository::new();
+    let postgres_user_repo = PostgresUserRepository::new(pool.clone());
+    let memory_user_service = Service::new(memory_user_repo);
+    let postgres_user_service = Service::new(postgres_user_repo);
+
+    let memory_product_repo = InMemoryProductRepository::new();
+    let postgres_product_repo = PostgresProductRepository::new(pool.clone());
+    let memory_product_service = Service::new(memory_product_repo);
+    let postgres_product_service = Service::new(postgres_product_repo);
+
+    // Create test data
+    let (username, email) = unique_test_data("persistence_user");
+    let (name, _) = unique_test_data("persistence_product");
+    
+    let create_user = CreateUser::new(username.clone(), email.clone()).unwrap();
+    let create_product = CreateProduct::new(name.clone(), "Test description".to_string()).unwrap();
+
+    let memory_user = memory_user_service.create(create_user.clone()).await.unwrap();
+    let postgres_user = postgres_user_service.create(create_user).await.unwrap();
+    let memory_product = memory_product_service.create(create_product.clone()).await.unwrap();
+    let postgres_product = postgres_product_service.create(create_product).await.unwrap();
+
+    // Verify data was created
+    assert_eq!(memory_user.username(), username);
+    assert_eq!(postgres_user.username(), username);
+    assert_eq!(memory_product.name(), name);
+    assert_eq!(postgres_product.name(), name);
+
+    // Test that data persists across service instances (for PostgreSQL)
+    // Memory repository data is lost when service is dropped, but PostgreSQL persists
+    let new_postgres_user_repo = PostgresUserRepository::new(pool.clone());
+    let new_postgres_product_repo = PostgresProductRepository::new(pool.clone());
+    let new_postgres_user_service = Service::new(new_postgres_user_repo);
+    let new_postgres_product_service = Service::new(new_postgres_product_repo);
+
+    let retrieved_user = new_postgres_user_service.get(postgres_user.id()).await.unwrap();
+    let retrieved_product = new_postgres_product_service.get(postgres_product.id()).await.unwrap();
+
+    assert_eq!(retrieved_user.username(), username);
+    assert_eq!(retrieved_user.email(), email);
+    assert_eq!(retrieved_product.name(), name);
+    assert_eq!(retrieved_product.description(), "Test description");
+
+    // Memory repository should still have the data in the same service instance
+    let memory_retrieved_user = memory_user_service.get(memory_user.id()).await.unwrap();
+    let memory_retrieved_product = memory_product_service.get(memory_product.id()).await.unwrap();
+
+    assert_eq!(memory_retrieved_user.username(), username);
+    assert_eq!(memory_retrieved_user.email(), email);
+    assert_eq!(memory_retrieved_product.name(), name);
+    assert_eq!(memory_retrieved_product.description(), "Test description");
+} 

backend/crates/integration-tests/src/lib.rs

@@ -14,6 +14,8 @@ pub mod api_postgres_tests;
 #[cfg(test)]
 pub mod cli_tests;
 #[cfg(test)]
+pub mod cross_repository_consistency_tests;
+#[cfg(test)]
 pub mod migration_tests;
 #[cfg(test)]
 pub mod performance_tests;