naiveproxy/net/url_request/url_fetcher.h

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2018-12-10 05:59:24 +03:00
// 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_FETCHER_H_
#define NET_URL_REQUEST_URL_FETCHER_H_
#include <stdint.h>
#include <memory>
#include <string>
#include <vector>
#include "base/callback_forward.h"
#include "base/memory/ref_counted.h"
#include "base/supports_user_data.h"
#include "net/base/net_export.h"
#include "net/traffic_annotation/network_traffic_annotation.h"
#include "net/url_request/url_request.h"
class GURL;
namespace base {
class FilePath;
class SequencedTaskRunner;
class TaskRunner;
class TimeDelta;
}
namespace url {
class Origin;
}
namespace net {
class HostPortPair;
class HttpResponseHeaders;
class URLFetcherDelegate;
class URLFetcherResponseWriter;
class URLRequestContextGetter;
class URLRequestStatus;
// NOTE: This class should not be used by content embedders, as it requires an
// in-process network stack. Content embedders should use
// network::SimpleURLLoader instead, which works with both in-process and
// out-of-process network stacks.
//
// To use this class, create an instance with the desired URL and a pointer to
// the object to be notified when the URL has been loaded:
// std::unique_ptr<URLFetcher> fetcher =
// URLFetcher::Create(GURL("http://www.google.com"),
// URLFetcher::GET,
// this);
//
// You must also set a request context getter:
//
// fetcher->SetRequestContext(&my_request_context_getter);
//
// Then, optionally set properties on this object, like the request context or
// extra headers:
// fetcher->AddExtraRequestHeader("X-Foo: bar");
//
// Finally, start the request:
// fetcher->Start();
//
// You may cancel the request by destroying the URLFetcher:
// fetcher.reset();
//
// The object you supply as a delegate must inherit from URLFetcherDelegate.
// When the fetch is completed, OnURLFetchComplete() will be called with a
// pointer to the URLFetcher. From that point until the original URLFetcher
// instance is destroyed, you may use accessor methods to see the result of the
// fetch. You should copy these objects if you need them to live longer than
// the URLFetcher instance. If the URLFetcher instance is destroyed before the
// callback happens, the fetch will be canceled and no callback will occur.
//
// You may create the URLFetcher instance on any sequence; OnURLFetchComplete()
// will be called back on the same sequence you use to create the instance.
//
//
// NOTE: By default URLFetcher requests are NOT intercepted, except when
// interception is explicitly enabled in tests.
class NET_EXPORT URLFetcher {
public:
// Imposible http response code. Used to signal that no http response code
// was received.
enum ResponseCode {
RESPONSE_CODE_INVALID = -1
};
enum RequestType {
GET,
POST,
HEAD,
DELETE_REQUEST, // DELETE is already taken on Windows.
// <winnt.h> defines a DELETE macro.
PUT,
PATCH,
};
// Used by SetURLRequestUserData. The callback should make a fresh
// base::SupportsUserData::Data object every time it's called.
typedef base::Callback<std::unique_ptr<base::SupportsUserData::Data>()>
CreateDataCallback;
// Used by SetUploadStreamFactory. The callback should assign a fresh upload
// data stream every time it's called.
typedef base::Callback<std::unique_ptr<UploadDataStream>()>
CreateUploadStreamCallback;
virtual ~URLFetcher();
// |url| is the URL to send the request to. It must be valid.
// |request_type| is the type of request to make.
// |d| the object that will receive the callback on fetch completion.
// This function should not be used in Chromium, please use the version with
// NetworkTrafficAnnotationTag below instead.
static std::unique_ptr<URLFetcher> Create(
const GURL& url,
URLFetcher::RequestType request_type,
URLFetcherDelegate* d);
// Like above, but if there's a URLFetcherFactory registered with the
// implementation it will be used. |id| may be used during testing to identify
// who is creating the URLFetcher.
// This function should not be used in Chromium, please use the version with
// NetworkTrafficAnnotationTag below instead.
static std::unique_ptr<URLFetcher> Create(
int id,
const GURL& url,
URLFetcher::RequestType request_type,
URLFetcherDelegate* d);
// |url| is the URL to send the request to. It must be valid.
// |request_type| is the type of request to make.
// |d| the object that will receive the callback on fetch completion.
// |traffic_annotation| metadata about the network traffic send via this
// URLFetcher, see net::DefineNetworkTrafficAnnotation. Note that:
// - net provides the API for tagging requests with an opaque identifier.
// - tools/traffic_annotation/traffic_annotation.proto contains the Chrome
// specific .proto describing the verbose annotation format that Chrome's
// callsites are expected to follow.
// - tools/traffic_annotation/ contains sample and template for annotation and
// tools will be added for verification following crbug.com/690323.
static std::unique_ptr<URLFetcher> Create(
const GURL& url,
URLFetcher::RequestType request_type,
URLFetcherDelegate* d,
NetworkTrafficAnnotationTag traffic_annotation);
// Like above, but if there's a URLFetcherFactory registered with the
// implementation it will be used. |id| may be used during testing to identify
// who is creating the URLFetcher.
static std::unique_ptr<URLFetcher> Create(
int id,
const GURL& url,
URLFetcher::RequestType request_type,
URLFetcherDelegate* d,
NetworkTrafficAnnotationTag traffic_annotation);
// Cancels all existing URLFetchers. Will notify the URLFetcherDelegates.
// Note that any new URLFetchers created while this is running will not be
// cancelled. Typically, one would call this in the CleanUp() method of an IO
// thread, so that no new URLRequests would be able to start on the IO thread
// anyway. This doesn't prevent new URLFetchers from trying to post to the IO
// thread though, even though the task won't ever run.
static void CancelAll();
// Normally, URLFetcher will abort loads that request SSL client certificate
// authentication, but this method may be used to cause URLFetchers to ignore
// requests for client certificates and continue anonymously. Because such
// behaviour affects the URLRequestContext's shared network state and socket
// pools, it should only be used for testing.
static void SetIgnoreCertificateRequests(bool ignored);
// Sets data only needed by POSTs. All callers making POST requests should
// call one of the SetUpload* methods before the request is started.
// |upload_content_type| is the MIME type of the content, while
// |upload_content| is the data to be sent (the Content-Length header value
// will be set to the length of this data).
virtual void SetUploadData(const std::string& upload_content_type,
const std::string& upload_content) = 0;
// Sets data only needed by POSTs. All callers making POST requests should
// call one of the SetUpload* methods before the request is started.
// |upload_content_type| is the MIME type of the content, while
// |file_path| is the path to the file containing the data to be sent (the
// Content-Length header value will be set to the length of this file).
// |range_offset| and |range_length| specify the range of the part
// to be uploaded. To upload the whole file, (0, kuint64max) can be used.
// |file_task_runner| will be used for all file operations.
virtual void SetUploadFilePath(
const std::string& upload_content_type,
const base::FilePath& file_path,
uint64_t range_offset,
uint64_t range_length,
scoped_refptr<base::TaskRunner> file_task_runner) = 0;
// Sets data only needed by POSTs. All callers making POST requests should
// call one of the SetUpload* methods before the request is started.
// |upload_content_type| is the MIME type of the content, while |callback| is
// the callback to create the upload data stream (the Content-Length header
// value will be set to the length of this data). |callback| may be called
// mutliple times if the request is retried.
virtual void SetUploadStreamFactory(
const std::string& upload_content_type,
const CreateUploadStreamCallback& callback) = 0;
// Indicates that the POST data is sent via chunked transfer encoding.
// This may only be called before calling Start().
// Use AppendChunkToUpload() to give the data chunks after calling Start().
virtual void SetChunkedUpload(const std::string& upload_content_type) = 0;
// Adds the given bytes to a request's POST data transmitted using chunked
// transfer encoding.
// This method should be called ONLY after calling Start().
virtual void AppendChunkToUpload(const std::string& data,
bool is_last_chunk) = 0;
// Set one or more load flags as defined in net/base/load_flags.h. Must be
// called before the request is started.
virtual void SetLoadFlags(int load_flags) = 0;
// Set whether credentials should be included on the request. Must be called
// before the request is started.
virtual void SetAllowCredentials(bool allow_credentials) = 0;
// Returns the current load flags.
virtual int GetLoadFlags() const = 0;
// The referrer URL for the request. Must be called before the request is
// started.
virtual void SetReferrer(const std::string& referrer) = 0;
// The referrer policy to apply when updating the referrer during redirects.
// The referrer policy may only be changed before Start() is called.
virtual void SetReferrerPolicy(
URLRequest::ReferrerPolicy referrer_policy) = 0;
// Set extra headers on the request. Must be called before the request
// is started.
// This replaces the entire extra request headers.
virtual void SetExtraRequestHeaders(
const std::string& extra_request_headers) = 0;
// Add header (with format field-name ":" [ field-value ]) to the request
// headers. Must be called before the request is started.
// This appends the header to the current extra request headers.
virtual void AddExtraRequestHeader(const std::string& header_line) = 0;
// Set the URLRequestContext on the request. Must be called before the
// request is started.
virtual void SetRequestContext(
URLRequestContextGetter* request_context_getter) = 0;
// Set the origin that should be considered as "initiating" the fetch. This
// URL will be considered the "first-party" when applying cookie blocking
// policy to requests, and treated as the request's initiator.
virtual void SetInitiator(const base::Optional<url::Origin>& initiator) = 0;
// Set the key and data callback that is used when setting the user
// data on any URLRequest objects this object creates.
virtual void SetURLRequestUserData(
const void* key,
const CreateDataCallback& create_data_callback) = 0;
// If |stop_on_redirect| is true, 3xx responses will cause the fetch to halt
// immediately rather than continue through the redirect. OnURLFetchComplete
// will be called, with the URLFetcher's URL set to the redirect destination,
// its status set to CANCELED, and its response code set to the relevant 3xx
// server response code.
virtual void SetStopOnRedirect(bool stop_on_redirect) = 0;
// If |retry| is false, 5xx responses will be propagated to the observer. If
// it is true URLFetcher will automatically re-execute the request, after
// backoff_delay() elapses, up to the maximum number of retries allowed by
// SetMaxRetriesOn5xx. Defaults to true.
virtual void SetAutomaticallyRetryOn5xx(bool retry) = 0;
// |max_retries| is the maximum number of times URLFetcher will retry a
// request that receives a 5XX response. Depends on
// SetAutomaticallyRetryOn5xx. Defaults to 0.
virtual void SetMaxRetriesOn5xx(int max_retries) = 0;
virtual int GetMaxRetriesOn5xx() const = 0;
// Returns the back-off delay before the request will be retried,
// when a 5xx response was received.
virtual base::TimeDelta GetBackoffDelay() const = 0;
// Retries up to |max_retries| times when requests fail with
// ERR_NETWORK_CHANGED. If ERR_NETWORK_CHANGED is received after having
// retried |max_retries| times then it is propagated to the observer.
virtual void SetAutomaticallyRetryOnNetworkChanges(int max_retries) = 0;
// By default, the response is saved in a string. Call this method to save the
// response to a file instead. Must be called before Start().
// |file_task_runner| will be used for all file operations.
// To save to a temporary file, use SaveResponseToTemporaryFile().
// The created file is removed when the URLFetcher is deleted unless you
// take ownership by calling GetResponseAsFilePath().
virtual void SaveResponseToFileAtPath(
const base::FilePath& file_path,
scoped_refptr<base::SequencedTaskRunner> file_task_runner) = 0;
// By default, the response is saved in a string. Call this method to save the
// response to a temporary file instead. Must be called before Start().
// |file_task_runner| will be used for all file operations.
// The created file is removed when the URLFetcher is deleted unless you
// take ownership by calling GetResponseAsFilePath().
virtual void SaveResponseToTemporaryFile(
scoped_refptr<base::SequencedTaskRunner> file_task_runner) = 0;
// By default, the response is saved in a string. Call this method to use the
// specified writer to save the response. Must be called before Start().
virtual void SaveResponseWithWriter(
std::unique_ptr<URLFetcherResponseWriter> response_writer) = 0;
// Retrieve the response headers from the request. Must only be called after
// the OnURLFetchComplete callback has run.
virtual HttpResponseHeaders* GetResponseHeaders() const = 0;
// Retrieve the remote socket address from the request. Must only
// be called after the OnURLFetchComplete callback has run and if
// the request has not failed.
virtual HostPortPair GetSocketAddress() const = 0;
// Returns the proxy server that proxied the request. Must only be called
// after the OnURLFetchComplete callback has run and the request has not
// failed.
virtual const ProxyServer& ProxyServerUsed() const = 0;
// Returns true if the request was delivered through a proxy. Must only
// be called after the OnURLFetchComplete callback has run and the request
// has not failed.
virtual bool WasFetchedViaProxy() const = 0;
// Returns true if the response body was served from the cache. This includes
// responses for which revalidation was required.
virtual bool WasCached() const = 0;
// The number of bytes in the raw response body (before response filters are
// applied, to decompress it, for instance).
virtual int64_t GetReceivedResponseContentLength() const = 0;
// The number of bytes received over the network during the processing of this
// request. This includes redirect headers, but not redirect bodies. It also
// excludes SSL and proxy handshakes.
virtual int64_t GetTotalReceivedBytes() const = 0;
// Start the request. After this is called, you may not change any other
// settings.
virtual void Start() = 0;
// Return the URL that we were asked to fetch.
virtual const GURL& GetOriginalURL() const = 0;
// Return the URL that this fetcher is processing.
virtual const GURL& GetURL() const = 0;
// The status of the URL fetch.
virtual const URLRequestStatus& GetStatus() const = 0;
// The http response code received. Will return RESPONSE_CODE_INVALID
// if an error prevented any response from being received.
virtual int GetResponseCode() const = 0;
// Reports that the received content was malformed.
virtual void ReceivedContentWasMalformed() = 0;
// Get the response as a string. Return false if the fetcher was not
// set to store the response as a string.
virtual bool GetResponseAsString(std::string* out_response_string) const = 0;
// Get the path to the file containing the response body. Returns false
// if the response body was not saved to a file. If take_ownership is
// true, caller takes responsibility for the file, and it will not
// be removed once the URLFetcher is destroyed. User should not take
// ownership more than once, or call this method after taking ownership.
virtual bool GetResponseAsFilePath(
bool take_ownership,
base::FilePath* out_response_path) const = 0;
};
} // namespace net
#endif // NET_URL_REQUEST_URL_FETCHER_H_