src-tauri/src/services/speedtest.rs

use futures::future::join_all;
use reqwest::{Client, Url};
use serde::Serialize;
use std::time::{Duration, Instant};

use crate::error::AppError;

const DEFAULT_TIMEOUT_SECS: u64 = 8;
const MAX_TIMEOUT_SECS: u64 = 30;
const MIN_TIMEOUT_SECS: u64 = 2;

/// 端点测速结果
#[derive(Debug, Clone, Serialize)]
pub struct EndpointLatency {
    pub url: String,
    pub latency: Option<u128>,
    pub status: Option<u16>,
    pub error: Option<String>,
}

/// 网络测速相关业务
pub struct SpeedtestService;

impl SpeedtestService {
    /// 测试一组端点的响应延迟。
    pub async fn test_endpoints(
        urls: Vec<String>,
        timeout_secs: Option<u64>,
    ) -> Result<Vec<EndpointLatency>, AppError> {
        if urls.is_empty() {
            return Ok(vec![]);
        }

        let timeout = Self::sanitize_timeout(timeout_secs);
        let client = Self::build_client(timeout)?;

        let tasks = urls.into_iter().map(|raw_url| {
            let client = client.clone();
            async move {
                let trimmed = raw_url.trim().to_string();
                if trimmed.is_empty() {
                    return EndpointLatency {
                        url: raw_url,
                        latency: None,
                        status: None,
                        error: Some("URL 不能为空".to_string()),
                    };
                }

                let parsed_url = match Url::parse(&trimmed) {
                    Ok(url) => url,
                    Err(err) => {
                        return EndpointLatency {
                            url: trimmed,
                            latency: None,
                            status: None,
                            error: Some(format!("URL 无效: {err}")),
                        };
                    }
                };

                // 先进行一次热身请求，忽略结果，仅用于复用连接/绕过首包惩罚。
                let _ = client.get(parsed_url.clone()).send().await;

                // 第二次请求开始计时，并将其作为结果返回。
                let start = Instant::now();
                match client.get(parsed_url).send().await {
                    Ok(resp) => EndpointLatency {
                        url: trimmed,
                        latency: Some(start.elapsed().as_millis()),
                        status: Some(resp.status().as_u16()),
                        error: None,
                    },
                    Err(err) => {
                        let status = err.status().map(|s| s.as_u16());
                        let error_message = if err.is_timeout() {
                            "请求超时".to_string()
                        } else if err.is_connect() {
                            "连接失败".to_string()
                        } else {
                            err.to_string()
                        };

                        EndpointLatency {
                            url: trimmed,
                            latency: None,
                            status,
                            error: Some(error_message),
                        }
                    }
                }
            }
        });

        Ok(join_all(tasks).await)
    }

    fn build_client(timeout_secs: u64) -> Result<Client, AppError> {
        Client::builder()
            .timeout(Duration::from_secs(timeout_secs))
            .redirect(reqwest::redirect::Policy::limited(5))
            .user_agent("cc-switch-speedtest/1.0")
            .build()
            .map_err(|e| AppError::Message(format!("创建 HTTP 客户端失败: {e}")))
    }

    fn sanitize_timeout(timeout_secs: Option<u64>) -> u64 {
        let secs = timeout_secs.unwrap_or(DEFAULT_TIMEOUT_SECS);
        secs.clamp(MIN_TIMEOUT_SECS, MAX_TIMEOUT_SECS)
    }
}

#[cfg(test)]
mod tests {
    use super::*;

    #[test]
    fn sanitize_timeout_clamps_values() {
        assert_eq!(
            SpeedtestService::sanitize_timeout(Some(1)),
            MIN_TIMEOUT_SECS
        );
        assert_eq!(
            SpeedtestService::sanitize_timeout(Some(999)),
            MAX_TIMEOUT_SECS
        );
        assert_eq!(
            SpeedtestService::sanitize_timeout(Some(10)),
            10.min(MAX_TIMEOUT_SECS).max(MIN_TIMEOUT_SECS)
        );
        assert_eq!(
            SpeedtestService::sanitize_timeout(None),
            DEFAULT_TIMEOUT_SECS
        );
    }

    #[test]
    fn test_endpoints_handles_empty_list() {
        let result =
            tauri::async_runtime::block_on(SpeedtestService::test_endpoints(Vec::new(), Some(5)))
                .expect("empty list should succeed");
        assert!(result.is_empty());
    }

    #[test]
    fn test_endpoints_reports_invalid_url() {
        let result = tauri::async_runtime::block_on(SpeedtestService::test_endpoints(
            vec!["not a url".into(), "".into()],
            None,
        ))
        .expect("invalid inputs should still succeed");

        assert_eq!(result.len(), 2);
        assert!(
            result[0]
                .error
                .as_deref()
                .unwrap_or_default()
                .starts_with("URL 无效"),
            "invalid url should yield parse error"
        );
        assert_eq!(
            result[1].error.as_deref(),
            Some("URL 不能为空"),
            "empty url should report validation error"
        );
    }
}
refactor(backend): extract config and speedtest services (phase 4) This commit continues the backend refactoring initiative by extracting configuration management and API speedtest logic into dedicated service layers, completing phase 4 of the architectural improvement plan. ## Changes ### New Service Layers - ConfigService (`services/config.rs`): Consolidates all config import/export, backup management, and live sync operations - `create_backup()`: Creates timestamped backups with auto-cleanup - `export_config_to_path()`: Exports config to specified path - `load_config_for_import()`: Loads and validates imported config - `import_config_from_path()`: Full import with state update - `sync_current_providers_to_live()`: Syncs current providers to live files - Private helpers for Claude/Codex-specific sync logic - SpeedtestService (`services/speedtest.rs`): Encapsulates endpoint latency testing with proper validation and error handling - `test_endpoints()`: Tests multiple URLs concurrently - URL validation now unified in service layer - Includes 3 unit tests for edge cases (empty list, invalid URLs, timeout clamping) ### Command Layer Refactoring - Move all import/export commands to `commands/import_export.rs` - Commands become thin wrappers: parse params → call service → return JSON - Maintain `spawn_blocking` for I/O operations (phase 5 optimization) - Lock acquisition happens after I/O completes (minimize contention) ### File Organization - Delete: `import_export.rs`, `speedtest.rs` (root-level modules) - Create: `commands/import_export.rs`, `services/config.rs`, `services/speedtest.rs` - Update: Module declarations in `lib.rs`, `commands/mod.rs`, `services/mod.rs` ### Test Updates - Update 20 integration tests in `import_export_sync.rs` to use `ConfigService` APIs - All existing test cases pass without modification to test logic - Add 3 new unit tests for `SpeedtestService`: - `sanitize_timeout_clamps_values`: Boundary value testing - `test_endpoints_handles_empty_list`: Empty input handling - `test_endpoints_reports_invalid_url`: Invalid URL error reporting ## Benefits 1. Improved Testability: Service methods are `pub fn`, easily callable from tests without Tauri runtime 2. Better Separation of Concerns: Business logic isolated from command/transport layer 3. Enhanced Maintainability: Related operations grouped in cohesive service structs 4. Consistent Error Handling: Services return `Result<T, AppError>`, commands convert to `Result<T, String>` 5. Performance: I/O operations run in `spawn_blocking`, locks released before file operations ## Testing - ✅ All 43 tests passing (7 unit + 36 integration) - ✅ `cargo fmt --check` passes - ✅ `cargo clippy -- -D warnings` passes (zero warnings) ## Documentation Updated `BACKEND_REFACTOR_PLAN.md` to reflect completion of config and speedtest service extraction, marking phase 4 substantially complete. Co-authored-by: Claude Code <code@anthropic.com> 2025-10-28 15:58:04 +08:00			`use futures::future::join_all;`
			`use reqwest::{Client, Url};`
			`use serde::Serialize;`
			`use std::time::{Duration, Instant};`

			`use crate::error::AppError;`

			`const DEFAULT_TIMEOUT_SECS: u64 = 8;`
			`const MAX_TIMEOUT_SECS: u64 = 30;`
			`const MIN_TIMEOUT_SECS: u64 = 2;`

			`/// 端点测速结果`
			`#[derive(Debug, Clone, Serialize)]`
			`pub struct EndpointLatency {`
			`pub url: String,`
			`pub latency: Option<u128>,`
			`pub status: Option<u16>,`
			`pub error: Option<String>,`
			`}`

			`/// 网络测速相关业务`
			`pub struct SpeedtestService;`

			`impl SpeedtestService {`
			`/// 测试一组端点的响应延迟。`
			`pub async fn test_endpoints(`
			`urls: Vec<String>,`
			`timeout_secs: Option<u64>,`
			`) -> Result<Vec<EndpointLatency>, AppError> {`
			`if urls.is_empty() {`
			`return Ok(vec![]);`
			`}`

			`let timeout = Self::sanitize_timeout(timeout_secs);`
			`let client = Self::build_client(timeout)?;`

			`let tasks = urls.into_iter().map(\|raw_url\| {`
			`let client = client.clone();`
			`async move {`
			`let trimmed = raw_url.trim().to_string();`
			`if trimmed.is_empty() {`
			`return EndpointLatency {`
			`url: raw_url,`
			`latency: None,`
			`status: None,`
			`error: Some("URL 不能为空".to_string()),`
			`};`
			`}`

			`let parsed_url = match Url::parse(&trimmed) {`
			`Ok(url) => url,`
			`Err(err) => {`
			`return EndpointLatency {`
			`url: trimmed,`
			`latency: None,`
			`status: None,`
			`error: Some(format!("URL 无效: {err}")),`
			`};`
			`}`
			`};`

			`// 先进行一次热身请求，忽略结果，仅用于复用连接/绕过首包惩罚。`
			`let _ = client.get(parsed_url.clone()).send().await;`

			`// 第二次请求开始计时，并将其作为结果返回。`
			`let start = Instant::now();`
			`match client.get(parsed_url).send().await {`
			`Ok(resp) => EndpointLatency {`
			`url: trimmed,`
			`latency: Some(start.elapsed().as_millis()),`
			`status: Some(resp.status().as_u16()),`
			`error: None,`
			`},`
			`Err(err) => {`
			`let status = err.status().map(\|s\| s.as_u16());`
			`let error_message = if err.is_timeout() {`
			`"请求超时".to_string()`
			`} else if err.is_connect() {`
			`"连接失败".to_string()`
			`} else {`
			`err.to_string()`
			`};`

			`EndpointLatency {`
			`url: trimmed,`
			`latency: None,`
			`status,`
			`error: Some(error_message),`
			`}`
			`}`
			`}`
			`}`
			`});`

			`Ok(join_all(tasks).await)`
			`}`

			`fn build_client(timeout_secs: u64) -> Result<Client, AppError> {`
			`Client::builder()`
			`.timeout(Duration::from_secs(timeout_secs))`
			`.redirect(reqwest::redirect::Policy::limited(5))`
			`.user_agent("cc-switch-speedtest/1.0")`
			`.build()`
			`.map_err(\|e\| AppError::Message(format!("创建 HTTP 客户端失败: {e}")))`
			`}`

			`fn sanitize_timeout(timeout_secs: Option<u64>) -> u64 {`
			`let secs = timeout_secs.unwrap_or(DEFAULT_TIMEOUT_SECS);`
			`secs.clamp(MIN_TIMEOUT_SECS, MAX_TIMEOUT_SECS)`
			`}`
			`}`

			`#[cfg(test)]`
			`mod tests {`
			`use super::*;`

			`#[test]`
			`fn sanitize_timeout_clamps_values() {`
			`assert_eq!(`
			`SpeedtestService::sanitize_timeout(Some(1)),`
			`MIN_TIMEOUT_SECS`
			`);`
			`assert_eq!(`
			`SpeedtestService::sanitize_timeout(Some(999)),`
			`MAX_TIMEOUT_SECS`
			`);`
			`assert_eq!(`
			`SpeedtestService::sanitize_timeout(Some(10)),`
			`10.min(MAX_TIMEOUT_SECS).max(MIN_TIMEOUT_SECS)`
			`);`
			`assert_eq!(`
			`SpeedtestService::sanitize_timeout(None),`
			`DEFAULT_TIMEOUT_SECS`
			`);`
			`}`

			`#[test]`
			`fn test_endpoints_handles_empty_list() {`
			`let result =`
			`tauri::async_runtime::block_on(SpeedtestService::test_endpoints(Vec::new(), Some(5)))`
			`.expect("empty list should succeed");`
			`assert!(result.is_empty());`
			`}`

			`#[test]`
			`fn test_endpoints_reports_invalid_url() {`
			`let result = tauri::async_runtime::block_on(SpeedtestService::test_endpoints(`
			`vec!["not a url".into(), "".into()],`
			`None,`
			`))`
			`.expect("invalid inputs should still succeed");`

			`assert_eq!(result.len(), 2);`
			`assert!(`
			`result[0]`
			`.error`
			`.as_deref()`
			`.unwrap_or_default()`
			`.starts_with("URL 无效"),`
			`"invalid url should yield parse error"`
			`);`
			`assert_eq!(`
			`result[1].error.as_deref(),`
			`Some("URL 不能为空"),`
			`"empty url should report validation error"`
			`);`
			`}`
			`}`