// Copyright (c) 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #ifndef NET_URL_REQUEST_URL_REQUEST_TEST_JOB_H_ #define NET_URL_REQUEST_URL_REQUEST_TEST_JOB_H_ #include #include "base/memory/weak_ptr.h" #include "net/base/load_timing_info.h" #include "net/url_request/url_request.h" #include "net/url_request/url_request_job.h" #include "net/url_request/url_request_job_factory.h" namespace net { // This job type is designed to help with simple unit tests. To use, you // probably want to inherit from it to set up the state you want. Then install // it as the protocol handler for the "test" scheme. // // It will respond to several URLs, which you can retrieve using the test_url* // getters, which will in turn respond with the corresponding responses returned // by test_data*. Any other URLs that begin with "test:" will return an error, // which might also be useful, you can use test_url_error() to retrieve a // standard one. // // You can override the known URLs or the response data by overriding Start(). // // Optionally, you can also construct test jobs to return a headers and data // provided to the contstructor in response to any request url. // // When a job is created, it gets put on a queue of pending test jobs. To // process jobs on this queue, use ProcessOnePendingMessage, which will process // one step of the next job. If the job is incomplete, it will be added to the // end of the queue. // // Optionally, you can also construct test jobs that advance automatically // without having to call ProcessOnePendingMessage. class NET_EXPORT_PRIVATE URLRequestTestJob : public URLRequestJob { public: // Constructs a job to return one of the canned responses depending on the // request url, with auto advance disabled. URLRequestTestJob(URLRequest* request, NetworkDelegate* network_delegate); // Constructs a job to return one of the canned responses depending on the // request url, optionally with auto advance enabled. URLRequestTestJob(URLRequest* request, NetworkDelegate* network_delegate, bool auto_advance); // Constructs a job to return the given response regardless of the request // url. The headers should include the HTTP status line and use CRLF/LF as the // line separator. URLRequestTestJob(URLRequest* request, NetworkDelegate* network_delegate, const std::string& response_headers, const std::string& response_data, bool auto_advance); ~URLRequestTestJob() override; // The canned URLs this handler will respond to without having been // explicitly initialized with response headers and data. // FIXME(brettw): we should probably also have a redirect one static GURL test_url_1(); static GURL test_url_2(); static GURL test_url_3(); static GURL test_url_4(); static GURL test_url_error(); static GURL test_url_redirect_to_url_2(); // The data that corresponds to each of the URLs above static std::string test_data_1(); static std::string test_data_2(); static std::string test_data_3(); static std::string test_data_4(); // The headers that correspond to each of the URLs above static std::string test_headers(); // The headers for a redirect response static std::string test_redirect_headers(); // The headers for a redirect response to the second test url. static std::string test_redirect_to_url_2_headers(); // The headers for a server error response static std::string test_error_headers(); // Processes one pending message from the stack, returning true if any // message was processed, or false if there are no more pending request // notifications to send. This is not applicable when using auto_advance. static bool ProcessOnePendingMessage(); // With auto advance enabled, the job will advance thru the stages without // the caller having to call ProcessOnePendingMessage. Auto advance depends // on having a message loop running. The default is to not auto advance. // Should not be altered after the job has started. bool auto_advance() { return auto_advance_; } void set_auto_advance(bool auto_advance) { auto_advance_ = auto_advance; } void set_load_timing_info(const LoadTimingInfo& load_timing_info) { load_timing_info_ = load_timing_info; } RequestPriority priority() const { return priority_; } // Create a protocol handler for callers that don't subclass. static scoped_ptr CreateProtocolHandler(); // Job functions void SetPriority(RequestPriority priority) override; void Start() override; int ReadRawData(IOBuffer* buf, int buf_size) override; void Kill() override; bool GetMimeType(std::string* mime_type) const override; void GetResponseInfo(HttpResponseInfo* info) override; void GetLoadTimingInfo(LoadTimingInfo* load_timing_info) const override; int GetResponseCode() const override; bool IsRedirectResponse(GURL* location, int* http_status_code) override; protected: // Override to specify whether the next read done from this job will // return IO pending. This controls whether or not the WAITING state will // transition back to WAITING or to DATA_AVAILABLE after an asynchronous // read is processed. virtual bool NextReadAsync(); // This is what operation we are going to do next when this job is handled. // When the stage is DONE, this job will not be put on the queue. enum Stage { WAITING, DATA_AVAILABLE, ALL_DATA, DONE }; // Call to process the next opeation, usually sending a notification, and // advancing the stage if necessary. THIS MAY DELETE THE OBJECT. void ProcessNextOperation(); // Call to move the job along to the next operation. void AdvanceJob(); // Called via InvokeLater to cause callbacks to occur after Start() returns. virtual void StartAsync(); bool auto_advance_; Stage stage_; RequestPriority priority_; // The headers the job should return, will be set in Start() if not provided // in the explicit ctor. scoped_refptr response_headers_; // The data to send, will be set in Start() if not provided in the explicit // ctor. std::string response_data_; // current offset within response_data_ int offset_; // Holds the buffer for an asynchronous ReadRawData call IOBuffer* async_buf_; int async_buf_size_; LoadTimingInfo load_timing_info_; base::WeakPtrFactory weak_factory_; }; } // namespace net #endif // NET_URL_REQUEST_URL_REQUEST_TEST_JOB_H_