如何统一接口测试的功能、自动化和性能测试用例
服务端的测试,大多数内容都围绕着接口展开。对于接口测试,无非也是功能、自动化、性能测试为主,偶然想到一个问题,如果能写一个用例,在功能、自动化、性能三者的测试场景中重复使用,肯定能省去非常多的时间。
总体思路跟之前的接口和性能框架一样,通过总的测试项目中把接口功能封装好,留出来测试参数。功能测试就写方法调用然后人肉检查,自动化的话把接口响应拿出来,然后验证各种数据,性能直接使用性能框架直接调用该方法即可。
花了点时间,做了一个Demo,分享给大家。
这是一个简易的接口请求方法,其中main方法里面是功能测试执行代码,用例是文档形式,这里就不写了:
public class Headgear extends NajmBase { public Headgear(NajmBase najmBase) { this.loginKey = najmBase.loginKey; this.args = najmBase.args; this.user_id = najmBase.user_id; } private static NajmBase base = NajmBase.getBase(0); public static Headgear drive = new Headgear(base); /** * 当前正在使用的头套 */ public int usingHeadgearId; // public JSONObject headgearInfo = new JSONObject(); public Map<Integer, Long> headgearInfo = new HashMap<>(); public static void main(String[] args) { // NajmBase.getUserBalance(base.user_id); // int type = 1, id = 36, packageId = 60, num = 1, price = 1; // NajmBase base1 = new NajmBase(V580User.getUserName(0)); // Headgear headgear = new Headgear(); // headgear.switchHeadgear(34); // output(headgear.getHeadgearInfo()); // output(headgear.getUsingHeadgearId()); // output(base1.loginResponse); // drive.getAllHeadgear(); // new MallBase(base).buy(type, id, packageId, num, price); // drive.getUserHeadgearInfo(); // NajmBase.getUserBalance(base.user_id); // drive.getUserHeadgearInfo(); // drive.getOnsaleHeadgear(); int times = 0; while (true) { times++; int type = 1, id = getRandomInt(2) == 1 ? 34 : 36, packageId = id == 34 ? 56 : 60, num = 1, price = 1; long deadtime1 = drive.getHeadgearInfo().get(id); Verify verify = new Verify(new MallBase(base).buy(type, id, packageId, num, price)); drive.getUserHeadgearInfo(); long deadtime2 = drive.getHeadgearInfo().get(id); if (deadtime2 - deadtime1 != DAY) break; } output("一共进行了:" + times); // output(drive.getHeadgearInfo()); // output(drive.usingHeadgear); // output(drive.loginKey); // output(drive.args); // output(base.loginResponse.getJSONObject(DATAINFO).getJSONObject("headGear").getInt("id")); testOver(); } /** * 获取所有头套信息,包括下架的 * * @return */ public JSONObject getAllHeadgear() { String url = HOST + HeadgearApiPath.GET_ALL_HEADGEAR; HttpGet httpGet = getHttpGet(url); JSONObject response = getHttpResponseEntityByJson(httpGet); output(response); return response; } /** * 用户切换头套接口 * * @param hid * @return */ public JSONObject switchHeadgear(int hid) { String url = HOST + HeadgearApiPath.SWITCH_HEADGEAR + hid + changeJsonToArguments(args); HttpPost httpPost = getHttpPost(url); JSONObject response = getHttpResponseEntityByJson(httpPost); // output(response); return response; } /** * 获取用户头套信息 * * @return */ public JSONObject getUserHeadgearInfo() { sleep(1); String url = HOST + HeadgearApiPath.GET_USER_HEADGEAR; JSONObject response = getHttpResponseEntityByJson(getHttpGet(url, args)); output(response); if (isRightResponse(response)) { headgearInfo.clear(); JSONArray jsonArray = response.getJSONArray(DATAINFO); jsonArray.forEach(json -> { JSONObject jsonObject = JSONObject.fromObject(json.toString()) ; String name = jsonObject.getString("name") ; long deadTime = jsonObject.getLong("deadlineTime") ; int headgearId = jsonObject.getInt("goodId") ; int use = jsonObject.getInt("isUse") ; if (use == 1) usingHeadgearId = headgearId; headgearInfo.put(headgearId, deadTime); output(name, headgearId, getTimeByTimestamp(deadTime)); } ); } return response; } /** * 获取在售的头套的列表 * * @return */ public JSONObject getOnsaleHeadgear() { String url = HOST + HeadgearApiPath.GET_ONSALE_HEADGEAR; JSONObject response = getHttpResponseEntityByJson(getHttpGet(url, args)); output(response); return response; } public int getUsingHeadgearId() { getUserHeadgearInfo(); return usingHeadgearId; } public Map<Integer, Long> getHeadgearInfo() { getUserHeadgearInfo(); return headgearInfo; } }
下面是基于该功能的自动化测试用例,main方法里面是调试用例的过程,执行用例的方法在之前的文章写过,利用反射去记录用例信息和执行测试用例,并保存测试结果,输出测试报告,异常预警等等:
/** * 用户0-10 */ public class HeadgearCase extends SourceCode { static HeadgearCase headgearCase = new HeadgearCase(); static NajmBase base = new NajmBase(V580User.getUserName(0)); static Headgear drive = new Headgear(base); public static void main(String[] args) { // headgearCase.testDemo001(); // headgearCase.testDemo002(); // headgearCase.testDemo003(); // headgearCase.testDemo004(); headgearCase.testDemo005(); // headgearCase.testDemo006(); ApiLibrary.testOver(); } /** * 获取所有头套信息用例 */ public void testDemo001() { String label = "获取所有头套信息用例" + TAB + Thread.currentThread().getStackTrace()[1]; Verify verify = new Verify(drive.getAllHeadgear()); JSONObject result = new JSONObject(); result.put("状态码为0", verify.isRight()); result.put("包含数组", verify.isArray("heads")); result.put("包含已下架的头套", verify.isContains("自动化专用3")); result.put("包含正在出售的头套", verify.isContains("自动化专用1")); MySqlTest.saveTestResult(label, result); } /** * 获取在售的头套用例 */ public void testDemo002() { String label = "获取在售的头套用例" + TAB + Thread.currentThread().getStackTrace()[1]; Verify verify = new Verify(drive.getOnsaleHeadgear()); JSONObject result = new JSONObject(); result.put("状态码为0", verify.isRight()); result.put("包含数组", verify.isArray("dataInfo")); result.put("不包含已下架的头套", !verify.isContains("自动化专用3")); result.put("包含正在出售的头套", verify.isContains("自动化专用1")); result.put("包含描述信息", verify.isContains("测试10天")); MySqlTest.saveTestResult(label, result); } /** * 获取用户头套信息用例 */ public void testDemo003() { String label = "获取用户头套信息用例" + TAB + Thread.currentThread().getStackTrace()[1]; Verify verify = new Verify(drive.getUserHeadgearInfo()); JSONObject result = new JSONObject(); result.put("状态码为0", verify.isRight()); result.put("用户头套正常", verify.isContains("自动化专用1")); result.put("用户佩戴正常", verify.isContains("\"isUse\":1")); result.put("头套套餐正常", verify.isContains("测试1天")); MySqlTest.saveTestResult(label, result); } /** * 余额不足购买用例 */ public void testDemo004() { String label = "余额不足购买用例" + TAB + Thread.currentThread().getStackTrace()[1]; NajmBase base = new NajmBase(V580User.getUserName(1)); int type = 1, id = 36, packageId = 60, num = 1, price = 1; Verify verify = new Verify(new MallBase(base).buy(type, id, packageId, num, price)); JSONObject result = new JSONObject(); result.put("状态码为35", 35 == verify.getCode()); MySqlTest.saveTestResult(label, result); } /** * 正常购买用例 */ public void testDemo005() { String label = "正常购买用例" + TAB + Thread.currentThread().getStackTrace()[1]; int type = 1, id = getRandomInt(2) == 1 ? 34 : 36, packageId = id == 34 ? 56 : 60, num = 1, price = 1; int balance = NajmBase.getUserBalance(drive.user_id); long deadtime1 = drive.getHeadgearInfo().get(id); Verify verify = new Verify(new MallBase(base).buy(type, id, packageId, num, price)); drive.getUserHeadgearInfo(); long deadtime2 = drive.getHeadgearInfo().get(id); int balance1 = NajmBase.getUserBalance(drive.user_id); JSONObject result = new JSONObject(); result.put("状态码为0", verify.isRight()); result.put("截止日期正确", (deadtime2 + EMPTY).equals(verify.getValue("deadlineTime"))); result.put("头套日期增加正常", deadtime2 - deadtime1 == DAY); result.put("用户余额减少正常", balance - balance1 == 1); MySqlTest.saveTestResult(label, result); } /** * 用户切换头套用例 */ public void testDemo006() { String label = "用户切换头套用例" + TAB + Thread.currentThread().getStackTrace()[1]; drive.getAllHeadgear(); int id1 = drive.getUsingHeadgearId() == 34 ? 36 : 34; Verify verify = new Verify(drive.switchHeadgear(id1)); int id2 = drive.getUsingHeadgearId(); JSONObject result = new JSONObject(); result.put("状态码为0", verify.isRight()); result.put("头套切换成功", id1 == id2); MySqlTest.saveTestResult(label, result); } }
下面是一个针对其中某个功能的性能测试用例(测试用例分两种,一类是HTTP单次请求的,我才用了获取请求的HttpRequestBase对象然后去重新发送并发请求,一类是多接口或者非HTTP请求,如dubbo,mysql,redis,消息队列等等,直接调用的方法进行压测):
简单HTTP请求:
class CancelReason extends OkayBase{ public static void main(String[] args) { def argsUtil = new ArgsUtil(args) def thread = argsUtil.getIntOrdefault(0, 2) def times = argsUtil.getIntOrdefault(1, 5) def base = getBase() Headgear drive = new Headgear(base); drive.getAllHeadgear() def request = FanLibrary.getLastRequest() def timesthread = new RequestThreadTimes(request, times) new Concurrent(timesthread, thread,"获取所有头套,内容流转二期压测接口").start() allOver() } }
非简单HTTP请求的请参考之前写过的性能测试框架Demo:性能测试框架第二版。这类方法写起来比较简单,使用范围很高,但是需要根据不同的业务需求解决多线程数据和对象的安全问题。
整个项目放在git上,功能测试在本地,自动化项目和性能项目在服务器,采用Groovy脚本运行,也可以在本地调试。自动化项目采取定时或者间隔固定时间自动运行,性能项目收到输入命令groovy filename.groovy
来运行。
- 郑重声明:文章首发于公众号“FunTester”,禁止第三方(腾讯云除外)转载、发表。
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