It can't be. It's the same confusion as "email address normalization" being wrong (for example when gmail ignores dots when mapping an address to an inbox).
It matters where the normalization happens, and server-side behavior is out-of-scope of these identifier RFCs.
Yeah I would say that falls under the origin defining both paths as equivalent.
> Therefore, collapsing // to / in HTTP URL path segments is not correct normalization. It produces a different, non-equivalent identifier unless the origin explicitly defines those two paths as equivalent.
This exact ambiguity causes massive headaches when putting Nginx in front of a Spring Boot backend. Nginx defaults to merge_slashes on, so it silently 'fixes' the path. But Spring Security's strict firewall explicitly rejects URLs with // as a potential directory traversal vector and throws an error. It forces you to explicitly decide which layer in your infrastructure owns path normalization, because if Nginx passes it raw, the Java backend completely panics.
What I don't understand about this setup is why a double slash could ever be a directory traversal attack in Spring Boot.
If you're proxying to another server that just assumes relative paths and doesn't do any kind of validation, I guess an extra / might cause reading files outside of the expected area? That'd be an extremely weird and awful setup that I don't think makes any sense in the context of Spring Boot.
URL parsing/normalisation/escaping/unescaping is a minefield. There are many edge cases where every implementation does things differently. This is a perfect example.
It gets worse if you are mapping URLs to a filesystem (e.g. for serving files). Even though they look similar, URL paths have different capabilities and rules than filesystems, and different filesystems also vary. This is also an example of that (I don't think most filesystems support empty directory names).
Because maybe you use S3, which treats `foo/bar.txt` and `foo//bar.txt` as entirely separate things. Because to S3, directories don't exist and those are literally the exact names of the keys under which data is stored.
So you have script A concatenate "foo" + "/bar" and script B concatenate "foo/" + "/bar", and suddenly you have a weird problem.
I can't imagine a real use case where you'd think this is desirable.
This exact issue has derailed our main document store for the past several years. We have written a couple supporting application specifically to address the fallout from this issue.
If for whatever reason your S3 keys contained English words and their translations separated by a slash, you would have a real problem if one of your scripts were to concatenate woman, / and /ameeni as woman/ameeni instead of woman//ameeni in the English/Iraqw case.
I don't think it's incorrect for distinct paths to point to the same resource.
Of course you shouldn't assume that in a client. If you are implementing against an API don't deviate regarding // and trailing / from the API documentation.
What I’ve learned in doing this type of normalization is whatever the specification says, you will always find some website that uses some insane url tweak to decide what content it should show.
As some others have indirectly pointed out, this article conflates two things:
- URL parsing/normalization; and
- Mapping URLs to resources (e.g. file paths or database entries) to be served from the server, and whether you ever map two distinct URLs to the same resource (either via redirects or just serving the same content).
The former has a good spec these days: https://url.spec.whatwg.org/ tells you precisely how to turn a string (e.g., sent over the network via HTTP requests) into a normalized data structure [1] of (scheme, username, password, host, port, path, query, fragment). The article is correct insofar that the spec's path (which is a list of strings, for HTTP URLs) can contain empty string segments.
But the latter is much more wild-west, and I don't know of any attempt being made to standardize it. There are tons of possible choices you can make here:
Note that some things are normalized during parsing, e.g. `/foo\bar` -> `/foo/bar`, and `/foo/baz/../bar` -> `/foo/bar`. But for paths, very few.
Relatedly:
- For hosts, many more things are normalized during parsing. (This makes some sense, for security reasons.)
- For query, very little is normalized during parsing. But unlike for pathname, there is a standardized format and parser, application/x-www-form-urlencoded [2], that can be used to go further and canonicalize from the raw query string into a list of (name, value) string pairs.
Some discussions on the topic of path normalization, especially in terms of mapping the filesystem, in the URL Standard repo:
// is useful if the server needs to serve both static files in the filesystem, and embedded files like a webpage.
// can be used for embedded files' URL because they will never conflict with filesystem paths.
It is probably “incorrect”, but given the established actual usage over the decades, it’s most likely what you need to do nevertheless.
Not doing it is like punishing people for not using Oxford commas, or entering an hour long debate each time someone writes “would of” instead of “would have”. It grinds my gears too, but I have different hills to die on.
If different clients does it differently, you have incompatibilies. This punishes everybody. Since normalizing // to / removes information which may be significant, the obviously correct choice is folllowing the spec.
Of course not. It's an explicit feature part of every specification.
Plenty of websites rewrite paths like /a/b/c/d into a backend service call like /?w=a&x=b&y=c&z=d. In that scheme, /a//c/d would rewrite to /?w=a&x=&y=c&z=d, something entirely distinct from /a/c/d working out to /?w=a&x=b&y=c
It's not the application's fault that the people attempting to configure web server URLs don't know how web server URLs work.
Not sure I agree. The correct thing is to not mess with the URL at all if you're unsure about what to be doing to it. Doing nothing is the easiest thing of them all, why not do that?
URL normalization is defined and it doesn't include collapsing slashes.
Not that you can include custom normalization rules (like collapsing slashes, tolower()ing the entire path, removing the query part of the URL), but that's not part of the standard. If you're doing anything extra, the risk of breaking stuff is on you.
> nginx with merge_slashes
How can it be wrong if it is server-side? If the server wants to treat those paths equally, it can if it wants to.
It would only be wrong if a client does it and requests a different URL than the user entered, right?
It matters where the normalization happens, and server-side behavior is out-of-scope of these identifier RFCs.
> Therefore, collapsing // to / in HTTP URL path segments is not correct normalization. It produces a different, non-equivalent identifier unless the origin explicitly defines those two paths as equivalent.
If you're proxying to another server that just assumes relative paths and doesn't do any kind of validation, I guess an extra / might cause reading files outside of the expected area? That'd be an extremely weird and awful setup that I don't think makes any sense in the context of Spring Boot.
It gets worse if you are mapping URLs to a filesystem (e.g. for serving files). Even though they look similar, URL paths have different capabilities and rules than filesystems, and different filesystems also vary. This is also an example of that (I don't think most filesystems support empty directory names).
Because maybe you use S3, which treats `foo/bar.txt` and `foo//bar.txt` as entirely separate things. Because to S3, directories don't exist and those are literally the exact names of the keys under which data is stored.
So you have script A concatenate "foo" + "/bar" and script B concatenate "foo/" + "/bar", and suddenly you have a weird problem.
I can't imagine a real use case where you'd think this is desirable.
Not S3, but here's a literal real use case: the entry for the Iraqw word /ameeni (woman) in Wiktionary.
https://en.wiktionary.org/wiki//ameeni
If for whatever reason your S3 keys contained English words and their translations separated by a slash, you would have a real problem if one of your scripts were to concatenate woman, / and /ameeni as woman/ameeni instead of woman//ameeni in the English/Iraqw case.
W3C says:
> The slash ("/", ASCII 2F hex) character is reserved for the delimiting of substrings whose relationship is hierarchical.
Nothing on web is "correct", deal with it
Of course you shouldn't assume that in a client. If you are implementing against an API don't deviate regarding // and trailing / from the API documentation.
- URL parsing/normalization; and
- Mapping URLs to resources (e.g. file paths or database entries) to be served from the server, and whether you ever map two distinct URLs to the same resource (either via redirects or just serving the same content).
The former has a good spec these days: https://url.spec.whatwg.org/ tells you precisely how to turn a string (e.g., sent over the network via HTTP requests) into a normalized data structure [1] of (scheme, username, password, host, port, path, query, fragment). The article is correct insofar that the spec's path (which is a list of strings, for HTTP URLs) can contain empty string segments.
But the latter is much more wild-west, and I don't know of any attempt being made to standardize it. There are tons of possible choices you can make here:
- Should `https://example.com/foo//bar` serve the same resource as `https://example.com/foo/bar`? (What the article focuses on.)
- `https://example.com/foo/` vs. `https://example.com/foo`
- `https://example.com/foo/` vs. `https://example.com/FOO`
- `https://example.com/foo` vs. `https://example.com/fo%6f%` vs. `https://example.com/fo%6F%`
- `https://example.com/foo%2Fbar` vs. `https://example.com/foo/bar`
- `https://example.com/foo/` vs. `https://example.com/foo.html`
Note that some things are normalized during parsing, e.g. `/foo\bar` -> `/foo/bar`, and `/foo/baz/../bar` -> `/foo/bar`. But for paths, very few.
Relatedly:
- For hosts, many more things are normalized during parsing. (This makes some sense, for security reasons.)
- For query, very little is normalized during parsing. But unlike for pathname, there is a standardized format and parser, application/x-www-form-urlencoded [2], that can be used to go further and canonicalize from the raw query string into a list of (name, value) string pairs.
Some discussions on the topic of path normalization, especially in terms of mapping the filesystem, in the URL Standard repo:
- https://github.com/whatwg/url/issues/552
- https://github.com/whatwg/url/issues/606
- https://github.com/whatwg/url/issues/565
- https://github.com/whatwg/url/issues/729
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[1]: https://url.spec.whatwg.org/#url-representation [2]: https://url.spec.whatwg.org/#application/x-www-form-urlencod...
Not doing it is like punishing people for not using Oxford commas, or entering an hour long debate each time someone writes “would of” instead of “would have”. It grinds my gears too, but I have different hills to die on.
Plenty of websites rewrite paths like /a/b/c/d into a backend service call like /?w=a&x=b&y=c&z=d. In that scheme, /a//c/d would rewrite to /?w=a&x=&y=c&z=d, something entirely distinct from /a/c/d working out to /?w=a&x=b&y=c
It's not the application's fault that the people attempting to configure web server URLs don't know how web server URLs work.
Not that you can include custom normalization rules (like collapsing slashes, tolower()ing the entire path, removing the query part of the URL), but that's not part of the standard. If you're doing anything extra, the risk of breaking stuff is on you.