My server logs show a many attempts to access non existing sides. These are the "usual" bots scanning for known vulnerabilities. Many of the URLs contain =3D, e.g.
/?q=3Duser%2Fpassword&name%5B%23p=
/user/register/?element_parents=3Daccou=
/wp-admin/admin-post.php?swp_debug=3Dlo=
%3D is the url encoded value of = so I would expect to find %3D within the URL but not =3D. However, =3D can be found all over the logs. What is the meaning of this?
=3D is an example of a Quoted-Printable encoding for ASCII 0x3D, or the equals sign character (=).
You don't usually see this in URLs. It's not the normal encoding to use. It's a standard MIME type, an alternative to using base64. It looks like the request is expecting the app to decode the query string using Quoted-Printable, and then use the resulting path in some further redirect.
I have a Paw related question.
Does anybody know how to extract a value from an encoded URL response field with Paw? The value is the only part of the encoded URL which starts with a %3D (the URL encoded version of an = sign).
Getting the dynamic values out of JSON, a JSON array, a URL, etc worked great.
You can use our RegExp Match dynamic value for this: https://luckymarmot.com/paw/extensions/RegExMatch
insert the RegExp Match dynamic value first
as input for RegExp Match use the Response Parsed Body dynamic value (with the key path to the url-encoded field with the id)
write the regular expression to extract the id from the field (see example in the screenshot)
Excellent point Natalia. Instead of the Regex extension I used the Substring extension. This worked perfectly as the size of the encoded URL never changed.
We've switched one of our test environments to using .NET 4 on IIS7. Production is using .NET 2.
Certain urls, such as
http://www.example.com/page.aspx?param1=<foo>¶m2=<foo>
Aren't getting caught by our stringindex code that looks for < or > in Request.Url.ToString(). Why? Because they're showing up as <foo> when we check. This worked in .NET 2.
What is going on?
NOTE: there are no mistakes in the formatting. I really mean HTML encode.
All data in query string needs to be URL Encoded to be able to parse correctly, so if you want to grab what you entered you need to URL Decode the query string.
HttpServerUtility.UrlDecode(Request.QueryString);
http://msdn.microsoft.com/en-us/library/6196h3wt.aspx :
URL encoding ensures that all browsers will correctly transmit text in URL strings. Characters such as a question mark (?), ampersand (&), slash mark (/), and spaces might be truncated or corrupted by some browsers. As a result, these characters must be encoded in tags or in query strings where the strings can be re-sent by a browser in a request string.
I have an encrypted query string passed from another page, it reads something like "/se73j+sef" but after receiving it, the '+' sign got omitted and became "/se73j sef". Is this normal? Please kindly advice. Thanks.
Is this normal?
Yes, perfectly normal. + is a special character in an url. It means space (0x20 ASCII character). If you want to represent the + sign you will have to url encode it:
/se73j%2Bsef
To url encode a string in .NET you could use the UrlEncode method. Or depending on how you are building the url there are certainly better ways.
In some javascript, I have:
var url = "find.aspx?" + "location=" + encodeURIComponent( address );
alert( url );
location.href = url;
where the value of address is the string "Seattle, WA".
In the alert I see
find.aspx?Seattle%2C%20WA
as I expect.
But on the server side, when I look at Request.Url, the relevant substring I see is
find.aspx?Seattle, WA
And in the Firefox url window I see
find.aspx?location=Seattle%2C WA
So I'm getting three different representations whereas I would expect that in all three places I should see what I see in the alert. My expectation is that the url I assign to location.href should show up as-is in the browser url window, and should be passed as-is to the server in Request.Url (and I would need to decode the values on the server before using them). What's happening?
Firefox converts certain encoded characters into their literal forms as a way to be friendly to users. It will also convert spaces typed into the address bar into %20 for the server.
Update: The reason Firefox doesn't display the comma unencoded is because commas are allowed in URLs, but spaces are not, so it knows that a space is going to be unambiguously interpreted, whereas the pre-encoded comma is different from a non-encoded comma to some servers. see: Can I use commas in a URL?
ASP is probably trying to help you out by auto-un-encoding the string for you.
Update: It looks like ASP.NET unencodes Request.Url for you by default, as mentioned here: QueryString malformed after URLDecode They also mention that you can use HttpRequest.Url.Query to access the un-decoded version.
The alert is the only thing not doing any "magic" for you.
For the alert, you are doing the encoding yourself. Perhaps it looks the same as on the server-side if you removed encodeURIComponent.
On the server side, ASP.NET will always show you the unencoded form. This is to make it easier to directly map to files that also have text that needed to be (un)encoded.
Note that you can replace every letter for its UTF8 representation in URL Encoding. It will still be the same URL. I.e., type the following in the browser window and it will still work: %66%59%6E%64.aspx?location=Seattle%2C%20WA. To only encode the necessary chars, use UrlEncode on the server side if you create a link yourself.
URL encoding can become fairly tricky. You ask to explain it. To know the correct escape of a certain character, you need to know how that character looks in UTF8. The hexadecimal value of the UTF-8 bytes then become the %XX%YY value of your letter. Sometimes it's one %XX, but it can be up to six byte sequences in total (some Chinese characters for instance).
URL Encoding works one way only. Never double-encode or double-unencode. This is prohibited by the specification. Also, because you can encode any character, it is not always possible (as you found out) to do roundtrip encoding/unencoding. If you unencode and re-encode again, it is well possible that the resulting string is different, but syntactically the same.
In HTML, URL Encoding is sometimes interspersed with HTML Encoding. I.e., the ampersand is valid in HTML, but not in HTML. find.aspx?city=A&name=B becomes find.aspx?city=A&name=B in and HTML URL. However, browsers are lenient and will accept wrongly HTML-encoded strings.
Finally, a not on the browser: if you type in a space in a link, even inside an <a> tag, it will escape the space (or other character) for you. Likewise, it will nowadays show the odd characters (é, ï etc) in the address bar, but when it sends it over HTTP, the browser will correctly do the encoding for you.
Update: about anwering your question of needing a "definitive" reference or proof.
While I couldn't find any on the internet, I decided to look for it myself using Reflector. Going through the methods that set, for instance, the HttpRequest.QueryString, you quickly encounter the private method HttpRequest.FillInQueryStringCollection which then calls HttpValueCollection.FillfromEncodedBytes. Somewhat near the end of that method, HttpUtility.UrlDecode is called for the values. Conclusion: do not call it yourself, to prevent double decoding.
You can see this for yourself when you download Reflector and disassemble the .NET libs of System.Web.
For your example you can change this line
var url = "find.aspx?" + "location=" + encodeURIComponent( address );
to
var url = "find.aspx?" + "location=" + address;
and see the address as it is. Bu if address variable contains any '&' character your variable will be corrupt. So you are using encodeURIComponent to encode these things url.
On the Server side all these encoded strings are decoded back. It means encodeURIComponent is just for sending the address variable (whether it contains & character or not) to server side correctly.