- Building an HTTP Request
- Sending the HTTP Request
- Get the HTTP Response
- Verify the HTTP Response
If you look at RFC 2616 it will tell you everything you need to know about HTTP/1.1. However, if you are not used to reading RFC, this document can be quite confusing.
Here some highlights to an HTTP Request...
If you go to a website and they have a FORM, submitting the FORM will do an HTTP Request. The FORM tag will have an action attribute. In side the FORM will be INPUT, SELECT, BUTTON, etc. tags.
For example, the Google home page is a FORM. The action for the FORM is "/search". The INPUT has a name attribute of "q". If I enter "HTTP Request" into the INPUT field, my web browser builds an HTTP Request and sends it to Google. You can type the following URL into an address bar:
http://www.google.com/search?q=HTTP%20Request&hl=en
This is the same as entering 'HTTP Request' into the input field and clicking the Search button. The one oddity is the %20. A proper HTTP Request has no spaces in it. So you need to convert spaces to a hexidecimal value. The hexidecimal value 20 is ASCII for a space. Also symbols like / : & etc. have to be convert as well. If the symbol is part of the Request and not a value being passed you don't convert it. The general format is:
http://hostname:port/action?key=value&key=value&key=value
If you leave out the port it defaults to 80 (443 for https).
At this point you might be wondering, what does this have to do with API testing? A lot. Many APIs are implemented using HTTP Request/Response. So you need to send them an HTTP Request just like your web browser creates an HTTP Request. With the web browser, it adds a lot more you might not be aware of. The HTTP Request has the URL, a header and sometimes data. Your web browser will secretly add header information like:
Host: www.google.com
Accept-Language: en-us,en;q=0.5
Finally, the FORM can be a POST or a GET form. If it sends data using the URL, like the above examples, it is a GET request. If it sends the data in such a way the user doesn't see it, it is a POST request. For example, if I was logging into a website, I would use a POST so the password isn't visible in the address bar.
So now we have talked about all three parts. The URL, the HEADER and the DATA.
Let's say I design an API such that I expect some data to be in the URL, some in the header and some in the data. So lets say the URL will be:
https://www.mywebsite.com:8443/accounts/admin/requestAccount?company=Acme&auth=Darrell
In the header I want them to identify which machine the request is coming from and an API Key:
Request-Host: 127.0.0.1
Company-API-Key: foobar7
And finally, the data will be an XML file with the following information:
<?xml version=\"1.0\" encoding=\"utf-8\"?>
<RequestAccount>
<CompanyName>Acme</CompanyName>
<EmployeeID>10318630</EmployeeID>
<FirstName>Bob</FirstName>
<LastName>Johnson</LastName>
</RequestAccount>
So how do I take this knowledge and using it? Let's say the XML data is saved in the text file foo.txt and I have curl installed on my machine (comes default on UNIX, Linux and Mac OS X machines; you can get and install a Windows version for free).
The curl command to use this would be:
curl -k -d @foo.txt -H "Request-Host: 127.0.0.1" -H "Company-API-Key: foobar7" -o response.txt https://www.mywebsite.com:8443/accounts/admin/requestAccount?company=Acme&auth=Darrell
The -k makes it so we don't worry about SSL certificates and authentication, the -d is used to send the data, the -H adds header information, the -o saves the response to the file.
The great thing about curl is you can try something, make a slight change, try again, make a slight change, try again. So if you wanted to try a bunch of different data files, you can do this quickly and easily with a shell for loop. You can play with the header information or leave/change some of the URL fields.
You can quickly probe and test a set of APIs using curl. There are more options to curl but this is the basic usage.