How to receive a file via HTTP PUT with PHP

Question

This is something that has been bugging me for a while.. I'm building of a RESTful API that has to receive files on some occasions.

When using HTTP POST, we can read data from $_POST and files from $_FILES.

When using HTTP GET, we can read data from $_GET and files from $_FILES.

However, when using HTTP PUT, AFAIK the only way to read data is to use the php://input stream.

All good and well, untill I want to send a file over HTTP PUT. Now the php://input stream doesn't work as expected anymore, since it has a file in there as well.

Here's how I currently read data on a PUT request:

(which works great as long as there are no files posted)

$handle  = fopen('php://input', 'r'); $rawData = ''; while ($chunk = fread($handle, 1024)) {     $rawData .= $chunk; }  parse_str($rawData, $data); 

When I then output rawData, it shows

-----ZENDHTTPCLIENT-44cf242ea3173cfa0b97f80c68608c4c Content-Disposition: form-data; name="image_01"; filename="lorem-ipsum.png" Content-Type: image/png; charset=binary  �PNG ���...etc etc... ���, -----ZENDHTTPCLIENT-8e4c65a6678d3ef287a07eb1da6a5380 Content-Disposition: form-data; name="testkey"  testvalue -----ZENDHTTPCLIENT-8e4c65a6678d3ef287a07eb1da6a5380 Content-Disposition: form-data; name="otherkey"  othervalue 

Does anyone know how to properly receive files over HTTP PUT, or how to parse files out of the php://input stream?

===== UPDATE #1 =====

I have tried only the above method, don't really have a clue as to what I can do else.

I have gotten no errors using this method, besides that I don't get the desired result of the posted data and files.

===== UPDATE #2 =====

I'm sending this test request using Zend_Http_Client, as follows: (haven't had any problems with Zend_Http_Client so far)

$client = new Zend_Http_Client(); $client->setConfig(array(     'strict'       => false,     'maxredirects' => 0,     'timeout'      => 30) ); $client->setUri( 'http://...' ); $client->setMethod(Zend_Http_Client::PUT); $client->setFileUpload( dirname(__FILE__) . '/files/lorem-ipsum.png', 'image_01'); $client->setParameterPost(array('testkey' => 'testvalue', 'otherkey' => 'othervalue'); $client->setHeaders(array(     'api_key'    => '...',     'identity'   => '...',     'credential' => '...' )); 

===== SOLUTION =====

Turns out I made some wrong assumptions, mainly that HTTP PUT would be similar to HTTP POST. As you can read below, DaveRandom explained to me that HTTP PUT is not meant for transferring multiple files on the same request.

I have now moved the transferring of formdata from the body to url querystring. The body now holds the contents of a single file.

For more information, read DaveRandom's answer. It's epic.

Answer 1

The data you show does not depict a valid PUT request body (well, it could, but I highly doubt it). What it shows is a multipart/form-data request body - the MIME type used when uploading files via HTTP POST through an HTML form.

PUT requests should exactly compliment the response to a GET request - they send you the file contents in the message body, and nothing else.

Essentially what I'm saying is that it is not your code to receive the file that is wrong, it is the code that is making the request - the client code is incorrect, not the code you show here (although the parse_str() call is a pointless exercise).

If you explain what the client is (a browser, script on other server, etc) then I can help you take this further. As it is, the appropriate request method for the request body that you depict is POST, not PUT.

---

Let's take a step back from the problem, and look at the HTTP protocol in general - specifically the client request side - hopefully this will help you understand how all of this is supposed to work. First, a little history (if you're not interested in this, feel free to skip this section).

History

HTTP was originally designed as a mechanism for retrieving HTML documents from remote servers. At first it effectively supported only the GET method, whereby the client would request a document by name and the server would return it to the client. The first public specification for HTTP, labelled as HTTP 0.9, appeared in 1991 - and if you're interested, you can read it here.

The HTTP 1.0 specification (formalised in 1996 with RFC 1945) expanded the capabilities of the protocol considerably, adding the HEAD and POST methods. It was not backwards compatible with HTTP 0.9, due to a change in the format of the response - a response code was added, as well as the ability to include metadata for the returned document in the form of MIME format headers - key/value data pairs. HTTP 1.0 also abstracted the protocol from HTML, allowing for the transfer of files and data in other formats.

HTTP 1.1, the form of the protocol that is almost exclusively in use today is built on top of HTTP 1.0 and was designed to be backwards compatible with HTTP 1.0 implementations. It was standardised in 1999 with RFC 2616. If you are a developer working with HTTP, get to know this document - it is your bible. Understanding it fully will give you a considerable advantage over your peers who do not.

Get to the point already

HTTP works on a request-response architecture - the client sends a request message to the server, the server returns a response message to the client.

A request message includes a METHOD, a URI and optionally, a number of HEADERS. The request METHOD is what this question relates to, so it is what I will cover in the most depth here - but first it is important to understand exactly what we mean when we talk about the request URI.

The URI is the location on the server of the resource we are requesting. In general, this consists of a path component, and optionally a query string. There are circumstances where other components may be present as well, but for the purposes of simplicity we shall ignore them for now.

Let's imagine you type http://server.domain.tld/path/to/document.ext?key=value into the address bar of your browser. The browser dismantles this string, and determines that it needs to connect to an HTTP server at server.domain.tld, and ask for the document at /path/to/document.ext?key=value.

The generated HTTP 1.1 request will look (at a minimum) like this:

GET /path/to/document.ext?key=value HTTP/1.1 Host: server.domain.tld 

The first part of the request is the word GET - this is the request METHOD. The next part is the path to the file we are requesting - this is the request URI. At the end of this first line is an identifier indicating the protocol version in use. On the following line you can see a header in MIME format, called Host. HTTP 1.1 mandates that the Host: header be included with every request. This is the only header of which this is true.

The request URI is broken into two parts - everything to the left of the question mark ? is the path, everything to the right of it is the query string.

Request Methods

RFC 2616 (HTTP/1.1) defines 8 request methods.

OPTIONS

The OPTIONS method is rarely used. It is intended as a mechanism for determining what kind of functionality the server supports before attempting to consume a service the server may provide.

Off the top of my head, the only place in fairly common usage that I can think of where this is used is when opening documents in Microsoft office directly over HTTP from Internet Explorer - Office will send an OPTIONS request to the server to determine if it supports the PUT method for the specific URI, and if it does it will open the document in a way that allows the user to save their changes to the document directly back to the remote server. This functionality is tightly integrated within these specific Microsoft applications.

GET

This is by far and away the most common method in every day usage. Every time you load a regular document in your web browser it will be a GET request.

The GET method requests that the server return a specific document. The only data that should be transmitted to the server is information that the server requires to determine which document should be returned. This can include information that the server can use to dynamically generate the document, which is sent in the form of headers and/or query string in the request URI. While we're on the subject - Cookies are sent in the request headers.

HEAD

This method is identical to the GET method, with one difference - the server will not return the requested document, if will only return the headers that would be included in the response. This is useful for determining, for example, if a particular document exists without having to transfer and process the entire document.

POST

This is the second most commonly used method, and arguably the most complex. POST method requests are almost exclusively used to invoke some actions on the server that may change its state.

A POST request, unlike GET and HEAD, can (and usually does) include some data in the body of the request message. This data can be in any format, but most commonly it is a query string (in the same format as it would appear in the request URI) or a multipart message that can communicate key/value pairs along with file attachments.

Many HTML forms use the POST method. In order to upload files from a browser, you would need to use the POST method for your form.

The POST method is semantically incompatible with RESTful APIs because it is not idempotent. That is to say, a second identical POST request may result in a further change to the state of the server. This contradicts the "stateless" constraint of REST.

PUT

This directly complements GET. Where a GET requests indicates that the server should return the document at the location specified by the request URI in the response body, the PUT method indicates that the server should store the data in the request body at the location specified by the request URI.

DELETE

This indicates that the server should destroy the document at the location indicated by the request URI. Very few internet facing HTTP server implementations will perform any action when they receive a DELETE request, for fairly obvious reasons.

TRACE

This provides an application-layer level mechanism to allow clients to inspect the request it has sent as it looks by the time it reaches the destination server. This is mostly useful for determining the effect that any proxy servers between the client and the destination server may be having on the request message.

CONNECT

HTTP 1.1 reserves the name for a CONNECT method, but does not define its usage, or even its purpose. Some proxy server implementations have since used the CONNECT method to facilitate HTTP tunnelling.