App Engine applications can communicate with other applications or access other resources on the web by fetching URLs. An app can use the URL Fetch service to issue HTTP and HTTPS requests and receive responses. The URL Fetch service uses Google's network infrastructure for efficiency and scaling purposes.
- Fetching URLs in Go
- Making requests
- Secure connections and HTTPS
- Request headers
- URL Fetch and the development server
- Quotas and limits
Fetching URLs in Go
You can use the Go
http package to make HTTP requests. The
urlfetch package provides
urlfetch.Transport, an implementation of the
http.RoundTripper interface that makes requests using App Engine's infrastructure.
The convenience function
urlfetch.Client returns an
*http.Client that uses the
http.Client documentation for more detail.
An app can fetch a URL using HTTP (normal) or HTTPS (secure). The URL specifies the scheme to use:
The URL to be fetched can use any port number in the following ranges:
65535. If the port is not mentioned in the URL, the port is implied by the scheme:
http://... is port
https://... is port
The fetch can use any of the following HTTP methods:
GET (common for requesting web pages and data),
POST (common for submitting web forms),
DELETE. The fetch can include HTTP request headers and a payload (an HTTP request body).
The URL Fetch service uses an HTTP/1.1 compliant proxy to fetch the result.
To prevent an app from causing an endless recursion of requests, a request handler is not allowed to fetch its own URL. It is still possible to cause an endless recursion with other means, so exercise caution if your app can be made to fetch requests for URLs supplied by the user.
You can set a deadline for a request, the most amount of time the service will wait for a response. By default, the deadline for a fetch is 5 seconds. The maximum deadline is 60 seconds for HTTP requests and 60 seconds for task queue and cron job requests.
Secure connections and HTTPS
An app can fetch a URL with the HTTPS method to connect to secure servers. Request and response data are transmitted over the network in encrypted form.
In the Go API, the proxy validates the host it is contacting by default, in order to detect "man in the middle" attacks between App Engine and the remote host when using HTTPS. This behaviour may be disabled by manually creating a Transport and setting
An app can set HTTP headers for the outgoing request.
When sending an HTTP POST request, if a
Content-Type header is not set explicitly, the header is set to
x-www-form-urlencoded. This is the content type used by web forms.
For security reasons, the following headers cannot be modified by the application:
These headers are set to accurate values by App Engine, as appropriate. For example, App Engine calculates the
Content-Length header from the request data and adds it to the request prior to sending.
Headers identifying request source
The following headers indicate the app ID of the requesting app:
User-Agent. This header can be modified but App Engine will append an identifier string to allow servers to identify App Engine requests. The appended string has the format
"AppEngine-Google; (+http://code.google.com/appengine; appid: APPID)", where
APPIDis your app's identifier.
X-Appengine-Inbound-Appid. This header cannot be modified, and is added automatically if the request is sent via the URL Fetch service.
The URL Fetch service returns all response data, including the response code, header and body.
By default, if the URL Fetch service receives a response with a redirect code, the service will follow the redirect. The service will follow up to 5 redirect responses, then return the final resource. You can use the API to tell the URL Fetch service to not follow redirects and just return a redirect response to the application.By default, if the incoming response exceeds the maximum response size limit, the URL fetch service raises an exception. (See below for the amount of this limit.) You can tell the API to truncate the response instead of raising an exception.
URL Fetch and the development server
When your application is running in the development server on your computer, calls to the URL Fetch service are handled locally. The development server fetches URLs by contacting remote hosts directly from your computer, using whatever network configuration your computer is using to access the Internet.
When testing the features of your app that fetch URLs, be sure that your computer can access the remote hosts.
If your app is using the Google Secure Data Connector to access URLs on your intranet, be sure to test your app while connected to your intranet behind the firewall. Unlike App Engine, the development server does not use the SDC Agent to resolve intranet URLs. Only Google Apps and App Engine can authenticate with your SDC Agent.
Quotas and limits
Each URL Fetch request counts toward the URL Fetch API Calls quota.
Data sent in an HTTP or HTTPS request using the URL Fetch service counts toward the following quotas:
- Outgoing Bandwidth (billable)
- URL Fetch Data Sent
In addition to these quotas, data sent in an HTTPS request also counts toward the following quota:
- Secure Outgoing Bandwidth (billable)
Data received in response to an HTTP or HTTPS request using the URL Fetch service counts toward the following quotas:
- Incoming Bandwidth (billable)
- URL Fetch Data Received
In addition to these quotas, data received in response to an HTTPS request also counts toward the following quota:
- Secure Incoming Bandwidth (billable)
In addition to quotas, the following limits apply to the use of the URL Fetch service:
|Request size||10 megabytes|
|Request header size||16 KB (Note that this limits the maximum length of the URL that can be specified in the header)|
|Response size||32 megabytes|
|Maximum deadline (request handler)||60 seconds|
|Maximum deadline (task queue and cron job handler)||60 seconds|