关于人工智能:HttpRunner3的HTTP请求是怎么发出去的

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在 HttpRunner3 的示例代码中,发送 HTTP 申请的代码是这样写的:

from httprunner import HttpRunner, Config, Step, RunRequest, RunTestCase


class TestCaseBasic(HttpRunner):

    config = Config("basic test with httpbin").base_url("https://httpbin.org/")

    teststeps = [
        Step(RunRequest("headers")
            .get("/headers")
            .validate()
            .assert_equal("status_code", 200)
            .assert_equal("body.headers.Host", "httpbin.org")
        ),
        # 省略
        Step(RunRequest("post data")
            .post("/post")
            .with_headers(**{"Content-Type": "application/json"})
            .with_data("abc")
            .validate()
            .assert_equal("status_code", 200)
        ),
        # 省略
    ]


if __name__ == "__main__":
    TestCaseBasic().test_start()

类 TestCaseBasic 继承了类 HttpRunner。
在类 TestCaseBasic 的外部定义了 teststeps 列表,由多个 Step 类的实例对象组成。
类 Step 初始化传入类 RunRequest 的办法 get 和 post 就把 HTTP 申请收回去了。

这到底是怎么实现的?

先看下 RunRequest 的源码:

class RunRequest(object):
    def __init__(self, name: Text):
        self.__step_context = TStep(name=name)

    def with_variables(self, **variables) -> "RunRequest":
        self.__step_context.variables.update(variables)
        return self

    def setup_hook(self, hook: Text, assign_var_name: Text = None) -> "RunRequest":
        if assign_var_name:
            self.__step_context.setup_hooks.append({assign_var_name: hook})
        else:
            self.__step_context.setup_hooks.append(hook)

        return self

    def get(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.GET, url=url)
        return RequestWithOptionalArgs(self.__step_context)

    def post(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.POST, url=url)
        return RequestWithOptionalArgs(self.__step_context)

    def put(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.PUT, url=url)
        return RequestWithOptionalArgs(self.__step_context)

    def head(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.HEAD, url=url)
        return RequestWithOptionalArgs(self.__step_context)

    def delete(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.DELETE, url=url)
        return RequestWithOptionalArgs(self.__step_context)

    def options(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.OPTIONS, url=url)
        return RequestWithOptionalArgs(self.__step_context)

    def patch(self, url: Text) -> RequestWithOptionalArgs:
        self.__step_context.request = TRequest(method=MethodEnum.PATCH, url=url)
        return RequestWithOptionalArgs(self.__step_context)

外面定义了 get、post 等 HTTP 申请的 Method。办法外部:

self.__step_context.request = TRequest(method=MethodEnum.GET, url=url)

有个 TRequest 类:

class TRequest(BaseModel):
    """requests.Request model"""

    method: MethodEnum
    url: Url
    params: Dict[Text, Text] = {}
    headers: Headers = {}
    req_json: Union[Dict, List, Text] = Field(None, alias="json")
    data: Union[Text, Dict[Text, Any]] = None
    cookies: Cookies = {}
    timeout: float = 120
    allow_redirects: bool = True
    verify: Verify = False
    upload: Dict = {}  # used for upload files

它继承了 pydantic.BaseModel,是用来做数据验证的,比方这里的 url 指定了 Url 类型,如果传一个 str 类型,就会校验失败。简而言之,这是给代码标准用的,没有理论的业务性能。

上面有一行正文:requests.Request mode,看来这个跟 requests 有点关系。

回过头来看看​​self.__step_context.request​​​,也就是​​self.__step_context​​对象有个 request 属性,它的定义是:

self.__step_context = TStep(name=name)

答案应该就在 TStep 中了:

class TStep(BaseModel):
    name: Name
    request: Union[TRequest, None] = None
    testcase: Union[Text, Callable, None] = None
    variables: VariablesMapping = {}
    setup_hooks: Hooks = []
    teardown_hooks: Hooks = []
    # used to extract request's response field
    extract: VariablesMapping = {}
    # used to export session variables from referenced testcase
    export: Export = []
    validators: Validators = Field([], alias="validate")
    validate_script: List[Text] = []

还是个 Model,外面的 request 定义是:

request: Union[TRequest, None] = None

又绕回 TRequest 了。这个 Union 是 typing 模块外面的:Union[X, Y] means either X or Y. 意思就是 request 的类型要么是 TRequest 要么是 None。

在方才 get 的办法中,还有一句​​return RequestWithOptionalArgs(self.__step_context)​​,RequestWithOptionalArgs 的定义如下:

class RequestWithOptionalArgs(object):
    def __init__(self, step_context: TStep):
        self.__step_context = step_context

    def with_params(self, **params) -> "RequestWithOptionalArgs":
        self.__step_context.request.params.update(params)
        return self

    def with_headers(self, **headers) -> "RequestWithOptionalArgs":
        self.__step_context.request.headers.update(headers)
        return self

    def with_cookies(self, **cookies) -> "RequestWithOptionalArgs":
        self.__step_context.request.cookies.update(cookies)
        return self

    def with_data(self, data) -> "RequestWithOptionalArgs":
        self.__step_context.request.data = data
        return self

    def with_json(self, req_json) -> "RequestWithOptionalArgs":
        self.__step_context.request.req_json = req_json
        return self

    def set_timeout(self, timeout: float) -> "RequestWithOptionalArgs":
        self.__step_context.request.timeout = timeout
        return self

    def set_verify(self, verify: bool) -> "RequestWithOptionalArgs":
        self.__step_context.request.verify = verify
        return self

    def set_allow_redirects(self, allow_redirects: bool) -> "RequestWithOptionalArgs":
        self.__step_context.request.allow_redirects = allow_redirects
        return self

    def upload(self, **file_info) -> "RequestWithOptionalArgs":
        self.__step_context.request.upload.update(file_info)
        return self

    def teardown_hook(self, hook: Text, assign_var_name: Text = None) -> "RequestWithOptionalArgs":
        if assign_var_name:
            self.__step_context.teardown_hooks.append({assign_var_name: hook})
        else:
            self.__step_context.teardown_hooks.append(hook)

        return self

    def extract(self) -> StepRequestExtraction:
        return StepRequestExtraction(self.__step_context)

    def validate(self) -> StepRequestValidation:
        return StepRequestValidation(self.__step_context)

    def perform(self) -> TStep:
        return self.__step_context

能够给 HTTP 申请增加 params、headers 等可选项。

看到这里,依然不晓得 HTTP 申请到底收回去的,因为没有调用呀。

只能往下层找,看调用 RunRequest 的 Step 类:

class Step(object):
    def __init__(
        self,
        step_context: Union[
            StepRequestValidation,
            StepRequestExtraction,
            RequestWithOptionalArgs,
            RunTestCase,
            StepRefCase,
        ],
    ):
        self.__step_context = step_context.perform()

    @property
    def request(self) -> TRequest:
        return self.__step_context.request

    @property
    def testcase(self) -> TestCase:
        return self.__step_context.testcase

    def perform(self) -> TStep:
        return self.__step_context

Step 类的​​__init__​​办法也用 Union 做了类型校验,其中 RequestWithOptionalArgs 就是 RunRequest 的 gei 等办法会返回的,这倒是匹配上了。它还有个 request 属性。有点头绪了。

再往下层找,看 HttpRunner 类,有个​​__run_step_request​​的办法:

def __run_step_request(self, step: TStep) -> StepData:
    """run teststep: request"""
    step_data = StepData(name=step.name)

    # parse
    prepare_upload_step(step, self.__project_meta.functions)
    request_dict = step.request.dict()
    request_dict.pop("upload", None)
    parsed_request_dict = parse_data(request_dict, step.variables, self.__project_meta.functions)
    parsed_request_dict["headers"].setdefault(
        "HRUN-Request-ID",
        f"HRUN-{self.__case_id}-{str(int(time.time() * 1000))[-6:]}",
    )
    step.variables["request"] = parsed_request_dict

    # setup hooks
    if step.setup_hooks:
        self.__call_hooks(step.setup_hooks, step.variables, "setup request")

    # prepare arguments
    method = parsed_request_dict.pop("method")
    url_path = parsed_request_dict.pop("url")
    url = build_url(self.__config.base_url, url_path)
    parsed_request_dict["verify"] = self.__config.verify
    parsed_request_dict["json"] = parsed_request_dict.pop("req_json", {})

    # request
    resp = self.__session.request(method, url, **parsed_request_dict)
    resp_obj = ResponseObject(resp)
    step.variables["response"] = resp_obj

    # teardown hooks
    if step.teardown_hooks:
        self.__call_hooks(step.teardown_hooks, step.variables, "teardown request")

    def log_req_resp_details():
        err_msg = "\n{} DETAILED REQUEST & RESPONSE {}\n".format("*" * 32, "*" * 32)

        # log request
        err_msg += "====== request details ======\n"
        err_msg += f"url: {url}\n"
        err_msg += f"method: {method}\n"
        headers = parsed_request_dict.pop("headers", {})
        err_msg += f"headers: {headers}\n"
        for k, v in parsed_request_dict.items():
            v = utils.omit_long_data(v)
            err_msg += f"{k}: {repr(v)}\n"

        err_msg += "\n"

        # log response
        err_msg += "====== response details ======\n"
        err_msg += f"status_code: {resp.status_code}\n"
        err_msg += f"headers: {resp.headers}\n"
        err_msg += f"body: {repr(resp.text)}\n"
        logger.error(err_msg)

    # extract
    extractors = step.extract
    extract_mapping = resp_obj.extract(extractors)
    step_data.export_vars = extract_mapping

    variables_mapping = step.variables
    variables_mapping.update(extract_mapping)

    # validate
    validators = step.validators
    session_success = False
    try:
        resp_obj.validate(validators, variables_mapping, self.__project_meta.functions)
        session_success = True
    except ValidationFailure:
        session_success = False
        log_req_resp_details()
        # log testcase duration before raise ValidationFailure
        self.__duration = time.time() - self.__start_at
        raise
    finally:
        self.success = session_success
        step_data.success = session_success

        if hasattr(self.__session, "data"):
            # httprunner.client.HttpSession, not locust.clients.HttpSession
            # save request & response meta data
            self.__session.data.success = session_success
            self.__session.data.validators = resp_obj.validation_results

            # save step data
            step_data.data = self.__session.data

    return step_data

就是这里了,它的函数名用了双下划线结尾:双下划线前缀会让 Python 解释器重写属性名称,以防止子类中的命名抵触。这也称为名称改写(name mangling),即解释器会更改变量的名称,以便在稍后扩大这个类时防止命名抵触。说人话就是,类的公有成员,只能在类的外部调用,不对外裸露。它只在​​__run_step()​​​办法中调用了 1 次:​​step_data = self.__run_step_request(step)​​。

两头有一段:

# request
resp = self.__session.request(method, url, **parsed_request_dict)
resp_obj = ResponseObject(resp)
step.variables["response"] = resp_obj

好家伙,​​self.__session.request()​​,跟 reqeusts 那个有点像了。点进去。

一下就跳转到了​​httprunner.client.py​​,众里寻他千百度,默然回首,它居然就在 client。

class HttpSession(requests.Session):
    """
    Class for performing HTTP requests and holding (session-) cookies between requests (in order
    to be able to log in and out of websites). Each request is logged so that HttpRunner can
    display statistics.

    This is a slightly extended version of `python-request <http://python-requests.org>`_'s
    :py:class:`requests.Session` class and mostly this class works exactly the same.
    """

    def __init__(self):
        super(HttpSession, self).__init__()
        self.data = SessionData()

    def update_last_req_resp_record(self, resp_obj):
        """update request and response info from Response() object."""
        # TODO: fix
        self.data.req_resps.pop()
        self.data.req_resps.append(get_req_resp_record(resp_obj))

    def request(self, method, url, name=None, **kwargs):

继承了 requests.Session 而后进行了重写。

果然,还是用到了 requests 库。

正文完
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