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Author SHA1 Message Date
CNWei
5f3269bad5 feat: 增加request对body字段的支持 
- 实现body字段对json语法,yaml语法的支持的支持
- 新增测试用例login_out.yaml
 2025-12-28 21:54:34 +08:00
7 changed files with 193 additions and 79 deletions
Expand all files Collapse all files

5
mocks/v1/auth/login.yaml
View File

@@ -7,6 +7,11 @@ request:
Content-Type: "application/json" Content-Type: "application/json"
Authorization: "111" Authorization: "111"
host: "127.0.0.1:8080" host: "127.0.0.1:8080"
body: >
{
"username":"user",
"password":"123"
}
response: response:
status: 200 status: 200
headers: headers:

50
mocks/v1/auth/login_out.yaml Normal file
View File

@@ -0,0 +1,50 @@
- id: "auth_login_out_001"
request:
method: "POST"
path: "/api/v1/auth/login_out"
# 必须包含此 Header 才会匹配
headers:
Content-Type: "application/json"
Authorization: "111"
host: "127.0.0.1:8080"
body:
type: true
response:
status: 200
headers:
Content-Type: "application/json"
X-Mock-Engine: "Rust-Gemini-v1.2"
# 直接内联 JSON 字符串
body: >
{
"code": 0,
"data": "退出成功",
"msg": "success"
}
settings:
delay_ms: 200 # 模拟真实网络延迟
- id: "auth_login_out_002"
request:
method: "POST"
path: "/api/v1/auth/login_out"
# 必须包含此 Header 才会匹配
headers:
Content-Type: "application/json"
Authorization: "111"
host: "127.0.0.1:8080"
body:
type: false
response:
status: 200
headers:
Content-Type: "application/json"
X-Mock-Engine: "Rust-Gemini-v1.2"
# 直接内联 JSON 字符串
body: >
{
"code": 1,
"data": "退出失败",
"msg": "success"
}
settings:
delay_ms: 200 # 模拟真实网络延迟

1
mocks/v1/products/export.yaml
View File

@@ -2,6 +2,7 @@ id: "prod_export_pdf"
request: request:
method: "GET" method: "GET"
path: "/api/v1/products/report" path: "/api/v1/products/report"
body: '{"username":"user","password":"123"}'
response: response:
status: 200 status: 200
headers: headers:

6
src/config.rs
View File

@@ -5,9 +5,9 @@ use std::collections::HashMap;
#[derive(Debug, Deserialize)] #[derive(Debug, Deserialize)]
#[serde(untagged)] #[serde(untagged)]
pub enum MockSource { pub enum MockSource {
/// 对应“一接口一文件”模式 /// 对应“一接口一文件”模式
Single(MockRule), Single(MockRule),
/// 对应“一文件多接口”模式 /// 对应“一文件多接口”模式
Multiple(Vec<MockRule>), Multiple(Vec<MockRule>),
} }
@@ -39,6 +39,8 @@ pub struct RequestMatcher {
pub query_params: Option<HashMap<String, String>>, pub query_params: Option<HashMap<String, String>>,
/// 选填:只有请求包含这些 Header 时才匹配 /// 选填:只有请求包含这些 Header 时才匹配
pub headers: Option<HashMap<String, String>>, pub headers: Option<HashMap<String, String>>,
// 修改点:从 String 改为 Option<serde_json::Value>
pub body: Option<serde_json::Value>,
} }
/// 响应内容定义 /// 响应内容定义

50
src/handler.rs
View File

@@ -23,19 +23,37 @@ pub async fn mock_handler(
Query(params): Query<HashMap<String, String>>, Query(params): Query<HashMap<String, String>>,
req: Request<Body>, req: Request<Body>,
) -> impl IntoResponse { ) -> impl IntoResponse {
let path = req.uri().path(); // let path = req.uri().path();
// 1. 【关键】将需要的数据克隆出来,断开与 req 的借用关系
let path = req.uri().path().to_string();
let method_str = method.as_str().to_string();
// 1. 将 Axum HeaderMap 转换为简单的 HashMap 供 Router 使用 // 1. 将 Axum HeaderMap 转换为简单的 HashMap 供 Router 使用
// 2. 现在可以安全地消耗 req 了,因为上面没有指向 req 内部的引用了
let body_bytes = match axum::body::to_bytes(req.into_body(), 10 * 1024 * 1024).await {
Ok(bytes) => bytes,
Err(_) => {
return Response::builder()
.status(StatusCode::BAD_REQUEST)
.body(Body::from("Read body error"))
.unwrap();
}
};
let incoming_json: Option<serde_json::Value> = serde_json::from_slice(&body_bytes).ok();
let mut req_headers = HashMap::new(); let mut req_headers = HashMap::new();
for (name, value) in headers.iter() { for (name, value) in headers.iter() {
if let Ok(v) = value.to_str() { if let Ok(v) = value.to_str() {
req_headers.insert(name.as_str().to_string(), v.to_string()); req_headers.insert(name.as_str().to_string(), v.to_string());
} }
} }
// 2. 执行匹配逻辑 // 2. 执行匹配逻辑
if let Some(rule) = state.router.match_rule(method.as_str(), path, &params, &req_headers) { if let Some(rule) =
state
.router
.match_rule(&method_str, &path, &params, &req_headers, &incoming_json)
{
// 3. 处理模拟延迟 // 3. 处理模拟延迟
if let Some(ref settings) = rule.settings { if let Some(ref settings) = rule.settings {
if let Some(delay) = settings.delay_ms { if let Some(delay) = settings.delay_ms {
@@ -49,7 +67,6 @@ pub async fn mock_handler(
// 注入 YAML 定义的 Header // 注入 YAML 定义的 Header
if let Some(ref h) = rule.response.headers { if let Some(ref h) = rule.response.headers {
for (k, v) in h { for (k, v) in h {
// println!("{}:{}",k.clone(), v.clone()); // println!("{}:{}",k.clone(), v.clone());
response_builder = response_builder.header(k, v); response_builder = response_builder.header(k, v);
@@ -65,23 +82,26 @@ pub async fn mock_handler(
let body = Body::from_stream(stream); let body = Body::from_stream(stream);
response_builder.body(body).unwrap() response_builder.body(body).unwrap()
} }
Err(_) => { Err(_) => Response::builder()
Response::builder() .status(StatusCode::INTERNAL_SERVER_ERROR)
.status(StatusCode::INTERNAL_SERVER_ERROR) .body(Body::from(format!(
.body(Body::from(format!("Mock Error: File not found at {}", file_path))) "Mock Error: File not found at {}",
.unwrap() file_path
} )))
.unwrap(),
} }
} else { } else {
// B. 内联模式:直接返回字符串内容 // B. 内联模式:直接返回字符串内容
response_builder.body(Body::from(rule.response.body.clone())).unwrap() response_builder
.body(Body::from(rule.response.body.clone()))
.unwrap()
} }
} else { } else {
println!("请求头{:?}",req_headers.clone()); println!("请求头{:?}", req_headers.clone());
// 匹配失败返回 404 // 匹配失败返回 404
Response::builder() Response::builder()
.status(StatusCode::NOT_FOUND) .status(StatusCode::NOT_FOUND)
.body(Body::from("No mock rule matched this request")) .body(Body::from("No mock rule matched this request"))
.unwrap() .unwrap()
} }
} }

25
src/router.rs
View File

@@ -18,6 +18,7 @@ impl MockRouter {
path: &str, path: &str,
queries: &HashMap<String, String>, queries: &HashMap<String, String>,
headers: &HashMap<String, String>, headers: &HashMap<String, String>,
incoming_body: &Option<serde_json::Value>, // 修改 1: 增加参数
) -> Option<&MockRule> { ) -> Option<&MockRule> {
// 1. 提取请求路径的首段作为索引 Key // 1. 提取请求路径的首段作为索引 Key
let key = self.extract_first_segment(path); let key = self.extract_first_segment(path);
@@ -26,7 +27,7 @@ impl MockRouter {
if let Some(rules) = self.index.get(&key) { if let Some(rules) = self.index.get(&key) {
// 3. 在候选集中进行线性深度匹配 // 3. 在候选集中进行线性深度匹配
for rule in rules { for rule in rules {
if self.is_match(rule, method, path, queries, headers) { if self.is_match(rule, method, path, queries, headers,incoming_body) {
return Some(rule); return Some(rule);
} }
} }
@@ -43,6 +44,7 @@ impl MockRouter {
path: &str, path: &str,
queries: &HashMap<String, String>, queries: &HashMap<String, String>,
headers: &HashMap<String, String>, headers: &HashMap<String, String>,
incoming_body: &Option<serde_json::Value>, // 修改 3: 增加参数
) -> bool { ) -> bool {
// A. 基础校验Method 和 Path 必须完全一致 (忽略末尾斜杠) // A. 基础校验Method 和 Path 必须完全一致 (忽略末尾斜杠)
if rule.request.method.to_uppercase() != method.to_uppercase() { if rule.request.method.to_uppercase() != method.to_uppercase() {
@@ -78,6 +80,27 @@ impl MockRouter {
} }
} }
} }
// D. 智能 Body 全量比对逻辑
if let Some(ref required_val) = rule.request.body {
match incoming_body {
Some(actual_val) => {
// 实现你的想法:尝试将 YAML 中的 String 转换为 Object 再对比
let final_required = if let Some(s) = required_val.as_str() {
// 如果能解析成 JSON就用解析后的对象否则用原始字符串 Value
serde_json::from_str::<serde_json::Value>(s).unwrap_or_else(|_| required_val.clone())
} else {
required_val.clone()
};
// 执行全量相等比对
if final_required != *actual_val {
println!("DEBUG: [ID:{}] Body Mismatch", rule.id);
return false;
}
}
None => return false, // YAML 要求有 Body 但请求为空
}
}
true true
} }

135
tests/integration_test.rs
View File

@@ -1,7 +1,8 @@
use std::fs::{self, File}; use std::fs::{self, File};
use std::io::Write; use std::io::Write;
use tempfile::tempdir; use tempfile::tempdir;
// 替换为你的项目实际名称 // 确保 Cargo.toml 中有 serde_json
use serde_json::json;
use mock_server::config::{MockRule, MockSource}; use mock_server::config::{MockRule, MockSource};
use mock_server::loader::MockLoader; use mock_server::loader::MockLoader;
use mock_server::router::MockRouter; use mock_server::router::MockRouter;
@@ -10,18 +11,23 @@ use std::collections::HashMap;
/// 模块一:验证 Config 反序列化逻辑 /// 模块一:验证 Config 反序列化逻辑
#[test] #[test]
fn test_config_parsing_scenarios() { fn test_config_parsing_scenarios() {
// 场景 A: 验证单接口配置 (Inline 模式) // 场景 A: 验证单接口配置 (增加 body 结构化校验)
let yaml_single = r#" let yaml_single = r#"
id: "auth_v1" id: "auth_v1"
request: { method: "POST", path: "/api/v1/login" } request:
method: "POST"
path: "/api/v1/login"
body: { "user": "admin" }
response: { status: 200, body: "welcome" } response: { status: 200, body: "welcome" }
"#; "#;
let source_s: MockSource = serde_yaml::from_str(yaml_single).expect("解析单接口失败"); let source_s: MockSource = serde_yaml::from_str(yaml_single).expect("解析单接口失败");
let rules = source_s.flatten(); let rules = source_s.flatten();
assert_eq!(rules.len(), 1); assert_eq!(rules.len(), 1);
assert_eq!(rules[0].request.path, "/api/v1/login"); // 验证 body 是否被成功解析为 Value::Object
assert!(rules[0].request.body.is_some());
assert_eq!(rules[0].request.body.as_ref().unwrap()["user"], "admin");
// 场景 B: 验证多接口配置 (Collection 模式) // 场景 B: 验证多接口配置 (原有逻辑不变)
let yaml_multi = r#" let yaml_multi = r#"
- id: "api_1" - id: "api_1"
request: { method: "GET", path: "/health" } request: { method: "GET", path: "/health" }
@@ -33,7 +39,7 @@ fn test_config_parsing_scenarios() {
let source_m: MockSource = serde_yaml::from_str(yaml_multi).expect("解析多接口失败"); let source_m: MockSource = serde_yaml::from_str(yaml_multi).expect("解析多接口失败");
assert_eq!(source_m.flatten().len(), 2); assert_eq!(source_m.flatten().len(), 2);
// 场景 C: 验证 Smart Body 的 file:// 协议字符串解析 // 场景 C: 验证 Smart Body 的 file:// 协议字符串解析 (原有逻辑不变)
let yaml_file = r#" let yaml_file = r#"
id: "export_api" id: "export_api"
request: { method: "GET", path: "/download" } request: { method: "GET", path: "/download" }
@@ -44,48 +50,34 @@ fn test_config_parsing_scenarios() {
assert!(rule.response.body.starts_with("file://")); assert!(rule.response.body.starts_with("file://"));
} }
/// 模块二:验证 Loader 递归扫描与索引构建 /// 模块二:验证 Loader 递归扫描与索引构建 (不涉及 Matcher 逻辑,基本保持不变)
#[test] #[test]
fn test_loader_recursive_indexing() { fn test_loader_recursive_indexing() {
let temp_root = tempdir().expect("无法创建临时目录"); let temp_root = tempdir().expect("无法创建临时目录");
let root_path = temp_root.path(); let root_path = temp_root.path();
// 创建多级目录结构
let auth_path = root_path.join("v1/auth"); let auth_path = root_path.join("v1/auth");
fs::create_dir_all(&auth_path).unwrap(); fs::create_dir_all(&auth_path).unwrap();
// 1. 在深层目录写入一个单接口文件
let mut f1 = File::create(auth_path.join("login.yaml")).unwrap(); let mut f1 = File::create(auth_path.join("login.yaml")).unwrap();
writeln!(f1, "id: 'l1'\nrequest: {{ method: 'POST', path: '/api/v1/login' }}\nresponse: {{ status: 200, body: 'ok' }}").unwrap(); writeln!(f1, "id: 'l1'\nrequest: {{ method: 'POST', path: '/api/v1/login' }}\nresponse: {{ status: 200, body: 'ok' }}").unwrap();
// 2. 在根目录写入一个多接口文件
let mut f2 = File::create(root_path.join("sys.yaml")).unwrap(); let mut f2 = File::create(root_path.join("sys.yaml")).unwrap();
writeln!(f2, "- id: 's1'\n request: {{ method: 'GET', path: '/health' }}\n response: {{ status: 200, body: 'up' }}").unwrap(); writeln!(f2, "- id: 's1'\n request: {{ method: 'GET', path: '/health' }}\n response: {{ status: 200, body: 'up' }}").unwrap();
// 执行加载
let index = MockLoader::load_all_from_dir(root_path); let index = MockLoader::load_all_from_dir(root_path);
// 验证逻辑: assert!(index.contains_key("api"));
// 即使物理路径很深,索引 Key 必须是逻辑路径的首段 assert!(index.contains_key("health"));
assert!(
index.contains_key("api"),
"必须通过 /api/v1/login 提取出 'api' 键"
);
assert!(
index.contains_key("health"),
"必须通过 /health 提取出 'health' 键"
);
// 验证扁平化后的总数
let total: usize = index.values().map(|v| v.len()).sum(); let total: usize = index.values().map(|v| v.len()).sum();
assert_eq!(total, 2); assert_eq!(total, 2);
} }
#[test] #[test]
fn test_router_matching_logic() { fn test_router_matching_logic() {
// 1. 准备模拟数据(模拟 Loader 的输出)
let mut index = HashMap::new(); let mut index = HashMap::new();
// 1. 准备带有 Body 的规则
let rule_auth = serde_yaml::from_str::<MockSource>( let rule_auth = serde_yaml::from_str::<MockSource>(
r#" r#"
id: "auth_v1" id: "auth_v1"
@@ -93,55 +85,76 @@ fn test_router_matching_logic() {
method: "POST" method: "POST"
path: "/api/v1/login" path: "/api/v1/login"
headers: { "Content-Type": "application/json" } headers: { "Content-Type": "application/json" }
body: { "code": 123 }
response: { status: 200, body: "token_123" } response: { status: 200, body: "token_123" }
"#, "#,
) )
.unwrap() .unwrap()
.flatten(); .flatten();
let rule_user = serde_yaml::from_str::<MockSource>(
r#"
id: "get_user"
request:
method: "GET"
path: "/api/user/info"
query_params: { "id": "100" }
response: { status: 200, body: "user_info" }
"#,
)
.unwrap()
.flatten();
// 构建 HashMap 索引(模仿 Loader 的行为)
index.insert(
"api".to_string(),
vec![rule_auth[0].clone(), rule_user[0].clone()],
);
index.insert("api".to_string(), vec![rule_auth[0].clone()]);
let router = MockRouter::new(index); let router = MockRouter::new(index);
// 2. 测试场景 A完全匹配 // 2. 测试场景 A完全匹配 (包括 Body)
let mut headers = HashMap::new(); let mut headers = HashMap::new();
headers.insert("Content-Type".to_string(), "application/json".to_string()); headers.insert("Content-Type".to_string(), "application/json".to_string());
let matched = router.match_rule("POST", "/api/v1/login", &HashMap::new(), &headers); // 构造请求 Body
let incoming_body = Some(json!({ "code": 123 }));
let matched = router.match_rule(
"POST",
"/api/v1/login",
&HashMap::new(),
&headers,
&incoming_body // 传入新参数
);
assert!(matched.is_some()); assert!(matched.is_some());
assert_eq!(matched.unwrap().id, "auth_v1"); assert_eq!(matched.unwrap().id, "auth_v1");
// 3. 测试场景 B路径末尾斜杠归一化 (Trailing Slash) // 3. 测试场景 BBody 不匹配
let matched_slash = router.match_rule("POST", "/api/v1/login/", &HashMap::new(), &headers); let wrong_body = Some(json!({ "code": 456 }));
assert!(matched_slash.is_some(), "应该忽略路径末尾的斜杠"); let matched_fail = router.match_rule(
"POST",
"/api/v1/login",
&HashMap::new(),
&headers,
&wrong_body
);
assert!(matched_fail.is_none(), "Body 不一致时不应匹配成功");
// 4. 测试场景 CQuery 参数子集匹配 // 4. 测试场景 C智能字符串转换验证 (YAML 是字符串,请求是对象)
let mut queries = HashMap::new(); let rule_str_body = serde_yaml::from_str::<MockSource>(
queries.insert("id".to_string(), "100".to_string()); r#"
queries.insert("extra".to_string(), "unused".to_string()); // 额外的参数不应影响匹配 id: "str_match"
request:
method: "POST"
path: "/api/str"
body: '{"type": "json_in_string"}' # 这里 YAML 解析为 Value::String
response: { status: 200, body: "ok" }
"#).unwrap().flatten();
let matched_query = router.match_rule("GET", "/api/user/info", &queries, &HashMap::new()); let mut index2 = HashMap::new();
assert!(matched_query.is_some()); index2.insert("api".to_string(), vec![rule_str_body[0].clone()]);
assert_eq!(matched_query.unwrap().id, "get_user"); let router2 = MockRouter::new(index2);
// 5. 测试场景 D匹配失败Method 错误) let incoming_obj = Some(json!({ "type": "json_in_string" })); // 请求是 JSON 对象
let fail_method = router.match_rule("GET", "/api/v1/login", &HashMap::new(), &headers); let matched_str = router2.match_rule(
assert!(fail_method.is_none()); "POST",
} "/api/str",
&HashMap::new(),
&HashMap::new(),
&incoming_obj
);
assert!(matched_str.is_some(), "应该支持将 YAML 字符串 body 转换为对象进行匹配");
// 5. 测试场景 D末尾斜杠兼容性测试
let matched_slash = router.match_rule(
"POST",
"/api/v1/login/",
&HashMap::new(),
&headers,
&incoming_body
);
assert!(matched_slash.is_some());
}