hms/crates/erp-server/tests/integration/ai_prompt_tests.rs

use erp_ai::dto::GenerateRequest;
use erp_ai::error::{AiError, AiResult};
use erp_ai::provider::AiProvider;
use erp_ai::service::analysis::AnalysisService;
use erp_ai::service::prompt::PromptService;
use erp_ai::service::usage::UsageService;
use erp_core::types::Pagination;
use sea_orm::ActiveModelTrait;
use sha2::Digest;

use super::test_db::TestDb;

use async_trait::async_trait;
use futures::Stream;
use std::pin::Pin;

// ---- Mock AiProvider ----

struct MockProvider;

#[async_trait]
impl AiProvider for MockProvider {
    async fn stream_generate(
        &self,
        _req: GenerateRequest,
    ) -> AiResult<Pin<Box<dyn Stream<Item = AiResult<String>> + Send>>> {
        Err(AiError::ProviderUnavailable("mock".into()))
    }

    async fn generate(&self, _req: GenerateRequest) -> AiResult<erp_ai::dto::GenerateResponse> {
        Err(AiError::ProviderUnavailable("mock".into()))
    }

    fn name(&self) -> &str {
        "mock"
    }

    async fn health_check(&self) -> AiResult<bool> {
        Ok(true)
    }
}

// ---- PromptService 集成测试 ----

#[tokio::test]
async fn prompt_create_and_get() {
    let test_db = TestDb::new().await;
    let svc = PromptService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();

    let created = svc
        .create_prompt(
            tenant_id,
            user_id,
            "lab_report".into(),
            "You are a medical AI.".into(),
            "Analyze: {{data}}".into(),
            serde_json::json!({"model": "claude"}),
            "analysis".into(),
        )
        .await
        .expect("创建应成功");

    assert_eq!(created.name, "lab_report");
    assert_eq!(created.version, 1);
    assert!(created.is_active);

    let active = svc
        .get_active_prompt(tenant_id, "lab_report")
        .await
        .expect("查询应成功");

    assert_eq!(active.id, created.id);
    assert_eq!(active.category, "analysis");
}

#[tokio::test]
async fn prompt_list_with_category_filter() {
    let test_db = TestDb::new().await;
    let svc = PromptService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();

    for (name, cat) in [("p1", "analysis"), ("p2", "summary"), ("p3", "analysis")] {
        svc.create_prompt(
            tenant_id,
            user_id,
            name.into(),
            "sys".into(),
            "usr".into(),
            serde_json::json!({}),
            cat.into(),
        )
        .await
        .expect("创建应成功");
    }

    let (items, total) = svc
        .list_prompts(
            tenant_id,
            Some("analysis".into()),
            &Pagination {
                page: Some(1),
                page_size: Some(10),
            },
        )
        .await
        .expect("查询应成功");

    assert_eq!(total, 2);
    assert_eq!(items.len(), 2);
}

#[tokio::test]
async fn prompt_activate_switches_version() {
    let test_db = TestDb::new().await;
    let svc = PromptService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();

    let v1 = svc
        .create_prompt(
            tenant_id,
            user_id,
            "my_prompt".into(),
            "sys_v1".into(),
            "usr".into(),
            serde_json::json!({}),
            "cat".into(),
        )
        .await
        .expect("v1");

    let v2 = svc
        .update_prompt(
            v1.id,
            tenant_id,
            user_id,
            Some("sys_v2".into()),
            None,
            None,
            None,
        )
        .await
        .expect("v2");

    assert_eq!(v2.version, 2);

    // v1 仍然激活（update 继承 is_active）
    let active_before = svc
        .get_active_prompt(tenant_id, "my_prompt")
        .await
        .expect("active");
    assert_eq!(active_before.system_prompt, "sys_v1");

    // 激活 v2
    svc.activate_prompt(v2.id, tenant_id)
        .await
        .expect("activate");

    let active_after = svc
        .get_active_prompt(tenant_id, "my_prompt")
        .await
        .expect("active");
    assert_eq!(active_after.id, v2.id);
    assert_eq!(active_after.system_prompt, "sys_v2");

    // v1 不再激活
    let v1_refreshed = ai_prompt_find_by_id(&test_db, v1.id).await;
    assert!(!v1_refreshed.is_active);
}

#[tokio::test]
async fn prompt_rollback_equals_activate() {
    let test_db = TestDb::new().await;
    let svc = PromptService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();

    let v1 = svc
        .create_prompt(
            tenant_id,
            user_id,
            "rb_test".into(),
            "sys_v1".into(),
            "usr".into(),
            serde_json::json!({}),
            "cat".into(),
        )
        .await
        .expect("v1");

    let v2 = svc
        .update_prompt(
            v1.id,
            tenant_id,
            user_id,
            Some("sys_v2".into()),
            None,
            None,
            None,
        )
        .await
        .expect("v2");

    svc.activate_prompt(v2.id, tenant_id)
        .await
        .expect("activate v2");

    // 回滚到 v1
    svc.rollback_prompt(v1.id, tenant_id)
        .await
        .expect("rollback");

    let active = svc
        .get_active_prompt(tenant_id, "rb_test")
        .await
        .expect("active");
    assert_eq!(active.id, v1.id);
}

#[tokio::test]
async fn prompt_cross_tenant_isolation() {
    let test_db = TestDb::new().await;
    let svc = PromptService::new(test_db.db().clone());
    let tenant_a = uuid::Uuid::new_v4();
    let tenant_b = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();

    svc.create_prompt(
        tenant_a,
        user_id,
        "shared_name".into(),
        "sys".into(),
        "usr".into(),
        serde_json::json!({}),
        "cat".into(),
    )
    .await
    .expect("create");

    let result = svc.get_active_prompt(tenant_b, "shared_name").await;
    assert!(result.is_err());
}

#[tokio::test]
async fn prompt_not_found_error() {
    let test_db = TestDb::new().await;
    let svc = PromptService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();

    let result = svc.get_active_prompt(tenant_id, "nonexistent").await;
    assert!(matches!(result, Err(AiError::PromptNotFound(_))));
}

// ---- UsageService 集成测试 ----

#[tokio::test]
async fn usage_log_and_overview() {
    let test_db = TestDb::new().await;
    let svc = UsageService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();

    // 空数据
    let overview = svc.get_overview(tenant_id).await.expect("overview");
    assert_eq!(overview.total_count, 0);

    // 手动插入一条 completed 分析记录
    insert_completed_analysis(&test_db, tenant_id, "lab_report").await;

    let overview = svc.get_overview(tenant_id).await.expect("overview");
    assert_eq!(overview.total_count, 1);
}

#[tokio::test]
async fn usage_by_type_aggregation() {
    let test_db = TestDb::new().await;
    let svc = UsageService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();

    insert_completed_analysis(&test_db, tenant_id, "lab_report").await;
    insert_completed_analysis(&test_db, tenant_id, "lab_report").await;
    insert_completed_analysis(&test_db, tenant_id, "trends").await;

    let by_type = svc.get_by_type(tenant_id).await.expect("by_type");
    assert_eq!(by_type.len(), 2);

    let lab = by_type
        .iter()
        .find(|t| t.analysis_type == "lab_report")
        .expect("lab");
    assert_eq!(lab.count, 2);

    let trends = by_type
        .iter()
        .find(|t| t.analysis_type == "trends")
        .expect("trends");
    assert_eq!(trends.count, 1);
}

#[tokio::test]
async fn usage_log_creates_record() {
    let test_db = TestDb::new().await;
    let svc = UsageService::new(test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();

    let record = svc
        .log_usage(
            tenant_id,
            "claude",
            "claude-3",
            "lab_report",
            100,
            200,
            3000,
            50,
            false,
        )
        .await
        .expect("log");

    assert_eq!(record.provider, "claude");
    assert_eq!(record.model, "claude-3");
    assert_eq!(record.analysis_type, "lab_report");
    assert_eq!(record.input_tokens, 100);
    assert_eq!(record.output_tokens, 200);
    assert!(!record.is_cache_hit);
}

#[tokio::test]
async fn usage_cross_tenant_isolation() {
    let test_db = TestDb::new().await;
    let svc = UsageService::new(test_db.db().clone());
    let tenant_a = uuid::Uuid::new_v4();
    let tenant_b = uuid::Uuid::new_v4();

    insert_completed_analysis(&test_db, tenant_a, "lab_report").await;

    let overview_b = svc.get_overview(tenant_b).await.expect("overview");
    assert_eq!(overview_b.total_count, 0);
}

// ---- AnalysisService 集成测试（DB 操作部分）----

#[tokio::test]
async fn analysis_complete_updates_status() {
    let test_db = TestDb::new().await;
    let svc = AnalysisService::new(
        std::sync::Arc::new(erp_ai::provider::registry::ProviderRegistry::new()),
        test_db.db().clone(),
    );
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();
    let patient_id = uuid::Uuid::new_v4();

    // 通过内部方法创建 streaming 记录（直接插入 DB）
    let analysis_id = uuid::Uuid::now_v7();
    insert_streaming_analysis(
        &test_db,
        analysis_id,
        tenant_id,
        user_id,
        patient_id,
        "lab_report",
    )
    .await;

    svc.complete_analysis(
        analysis_id,
        "分析结果文本".into(),
        serde_json::json!({"tokens": 100}),
    )
    .await
    .expect("complete");

    let record = svc.get_analysis(analysis_id, tenant_id).await.expect("get");
    assert_eq!(record.status, "completed");
    assert_eq!(record.result_content.as_deref(), Some("分析结果文本"));
}

#[tokio::test]
async fn analysis_fail_updates_status() {
    let test_db = TestDb::new().await;
    let svc = AnalysisService::new(
        std::sync::Arc::new(erp_ai::provider::registry::ProviderRegistry::new()),
        test_db.db().clone(),
    );
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();
    let patient_id = uuid::Uuid::new_v4();

    let analysis_id = uuid::Uuid::now_v7();
    insert_streaming_analysis(
        &test_db,
        analysis_id,
        tenant_id,
        user_id,
        patient_id,
        "trends",
    )
    .await;

    svc.fail_analysis(analysis_id, "API 超时".into())
        .await
        .expect("fail");

    let record = svc.get_analysis(analysis_id, tenant_id).await.expect("get");
    assert_eq!(record.status, "failed");
    assert_eq!(record.error_message.as_deref(), Some("API 超时"));
}

#[tokio::test]
async fn analysis_find_cached() {
    let test_db = TestDb::new().await;
    let registry = std::sync::Arc::new(erp_ai::provider::registry::ProviderRegistry::new());
    let svc = AnalysisService::new(registry, test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();
    let patient_id = uuid::Uuid::new_v4();

    let data = serde_json::json!({"test": "data"});
    let hash = compute_hash(&data);

    // 插入 completed 记录
    let analysis_id = uuid::Uuid::now_v7();
    insert_completed_analysis_with_hash(
        &test_db,
        analysis_id,
        tenant_id,
        user_id,
        patient_id,
        "lab_report",
        &hash,
        1,
    )
    .await;

    let cached = svc
        .find_cached(tenant_id, &hash, 1)
        .await
        .expect("find_cached");
    assert!(cached.is_some());
    assert_eq!(cached.unwrap().id, analysis_id);

    // 不同 hash 不命中
    let miss = svc
        .find_cached(tenant_id, "wrong_hash", 1)
        .await
        .expect("find_cached");
    assert!(miss.is_none());
}

#[tokio::test]
async fn analysis_list_with_filters() {
    let test_db = TestDb::new().await;
    let registry = std::sync::Arc::new(erp_ai::provider::registry::ProviderRegistry::new());
    let svc = AnalysisService::new(registry, test_db.db().clone());
    let tenant_id = uuid::Uuid::new_v4();
    let user_id = uuid::Uuid::new_v4();
    let patient_a = uuid::Uuid::new_v4();
    let patient_b = uuid::Uuid::new_v4();

    insert_completed_analysis_with_hash(
        &test_db,
        uuid::Uuid::now_v7(),
        tenant_id,
        user_id,
        patient_a,
        "lab_report",
        "h1",
        1,
    )
    .await;
    insert_completed_analysis_with_hash(
        &test_db,
        uuid::Uuid::now_v7(),
        tenant_id,
        user_id,
        patient_a,
        "trends",
        "h2",
        1,
    )
    .await;
    insert_completed_analysis_with_hash(
        &test_db,
        uuid::Uuid::now_v7(),
        tenant_id,
        user_id,
        patient_b,
        "lab_report",
        "h3",
        1,
    )
    .await;

    // 按 patient 筛选
    let (items, total) = svc
        .list_analysis(
            tenant_id,
            Some(patient_a),
            None,
            &Pagination {
                page: Some(1),
                page_size: Some(10),
            },
        )
        .await
        .expect("list");
    assert_eq!(total, 2);

    // 按 type 筛选
    let (items, total) = svc
        .list_analysis(
            tenant_id,
            None,
            Some("lab_report".into()),
            &Pagination {
                page: Some(1),
                page_size: Some(10),
            },
        )
        .await
        .expect("list");
    assert_eq!(total, 2);

    // 跨租户
    let (items, total) = svc
        .list_analysis(
            uuid::Uuid::new_v4(),
            None,
            None,
            &Pagination {
                page: Some(1),
                page_size: Some(10),
            },
        )
        .await
        .expect("list");
    assert_eq!(total, 0);
    assert!(items.is_empty());
}

// ---- 辅助函数 ----

async fn ai_prompt_find_by_id(
    test_db: &TestDb,
    id: uuid::Uuid,
) -> erp_ai::entity::ai_prompt::Model {
    use sea_orm::EntityTrait;
    erp_ai::entity::ai_prompt::Entity::find_by_id(id)
        .one(test_db.db())
        .await
        .expect("find")
        .expect("exists")
}

async fn insert_completed_analysis(test_db: &TestDb, tenant_id: uuid::Uuid, analysis_type: &str) {
    use sea_orm::Set;
    let id = uuid::Uuid::now_v7();
    let now = chrono::Utc::now();
    let active = erp_ai::entity::ai_analysis::ActiveModel {
        id: Set(id),
        tenant_id: Set(tenant_id),
        patient_id: Set(uuid::Uuid::new_v4()),
        analysis_type: Set(analysis_type.into()),
        source_ref: Set("test".into()),
        prompt_id: Set(uuid::Uuid::nil()),
        prompt_version: Set(1),
        model_used: Set("mock".into()),
        input_data_hash: Set(format!("hash_{}", id.simple())),
        sanitized_input: Set(None),
        result_content: Set(Some("result".into())),
        result_metadata: Set(None),
        status: Set("completed".into()),
        error_message: Set(None),
        created_at: Set(now),
        updated_at: Set(now),
        created_by: Set(None),
        updated_by: Set(None),
        deleted_at: Set(None),
        version_lock: Set(1),
    };
    active.insert(test_db.db()).await.expect("insert");
}

async fn insert_streaming_analysis(
    test_db: &TestDb,
    id: uuid::Uuid,
    tenant_id: uuid::Uuid,
    user_id: uuid::Uuid,
    patient_id: uuid::Uuid,
    analysis_type: &str,
) {
    use sea_orm::Set;
    let now = chrono::Utc::now();
    let active = erp_ai::entity::ai_analysis::ActiveModel {
        id: Set(id),
        tenant_id: Set(tenant_id),
        patient_id: Set(patient_id),
        analysis_type: Set(analysis_type.into()),
        source_ref: Set("test".into()),
        prompt_id: Set(uuid::Uuid::nil()),
        prompt_version: Set(1),
        model_used: Set("mock".into()),
        input_data_hash: Set(format!("hash_{}", id.simple())),
        sanitized_input: Set(None),
        result_content: Set(None),
        result_metadata: Set(None),
        status: Set("streaming".into()),
        error_message: Set(None),
        created_at: Set(now),
        updated_at: Set(now),
        created_by: Set(Some(user_id)),
        updated_by: Set(Some(user_id)),
        deleted_at: Set(None),
        version_lock: Set(1),
    };
    active.insert(test_db.db()).await.expect("insert");
}

async fn insert_completed_analysis_with_hash(
    test_db: &TestDb,
    id: uuid::Uuid,
    tenant_id: uuid::Uuid,
    user_id: uuid::Uuid,
    patient_id: uuid::Uuid,
    analysis_type: &str,
    hash: &str,
    prompt_version: i32,
) {
    use sea_orm::Set;
    let now = chrono::Utc::now();
    let active = erp_ai::entity::ai_analysis::ActiveModel {
        id: Set(id),
        tenant_id: Set(tenant_id),
        patient_id: Set(patient_id),
        analysis_type: Set(analysis_type.into()),
        source_ref: Set("test".into()),
        prompt_id: Set(uuid::Uuid::nil()),
        prompt_version: Set(prompt_version),
        model_used: Set("mock".into()),
        input_data_hash: Set(hash.into()),
        sanitized_input: Set(None),
        result_content: Set(Some("result".into())),
        result_metadata: Set(None),
        status: Set("completed".into()),
        error_message: Set(None),
        created_at: Set(now),
        updated_at: Set(now),
        created_by: Set(Some(user_id)),
        updated_by: Set(Some(user_id)),
        deleted_at: Set(None),
        version_lock: Set(1),
    };
    active.insert(test_db.db()).await.expect("insert");
}

fn compute_hash(data: &serde_json::Value) -> String {
    let canonical = serde_json::to_string(data).unwrap_or_default();
    let mut hasher = sha2::Sha256::new();
    hasher.update(canonical.as_bytes());
    hex::encode(hasher.finalize())
}