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Original question

So the project I'm working on is deathly paranoid about file uploads.
In the scope of this question, I'm not using that term in regards to payloads; I'm talking confidentiality.

Programs can always crash and leave temporary files loafing around in the filesystem. That's normal. The slightly confidentiality-paranoid can write a cronjob that hits the temporary file folder every few minutes and deletes anything older than a few seconds prior to the cronjob call (not everything, simply because otherwise it might catch a file in process of being uploaded).

...unfortunately, we take this paranoid a step further:

Ideally, we'd love to never see temporary files from file uploads anywhere but in process-associated RAM.

Is there a way to teach PHP to look for temporary file as blobs in memory rather than in the filesystem? We use PHP-FPM as a CGI handler and Apache as our webserver, in case that makes it any easier. (Note also: 'Filesystem' is the keyword here, rather than 'disc', since there are of course ways to map the filesystem to RAM, but that doesn't fix the accessibility and automatic post-crash-clean-up issue.)

Alternatively, is there a way these temporary files can be encrypted immediately when they're being written to disc, so that they're never held in the file system without encryption?

Thread overview

I can unfortunately only accept one answer - but to anyone reading this, the entire thread is extremely valuable and contains the collective insights of many people. Depending on what you are hoping to achieve, the accepted answer may not be interesting to you. If you've come here through a search engine, please take a moment to read the whole thread.

Here is a compilation of usecases as I see them for quick reference:

Re: PHP's temporary files

  • RAM instead of disc (e.g. due to I/O concerns) → RAMdisk/comparable (plasmid87, Joe Hopfgartner)

  • Immediate (per-filesystem-user) encryption → encFS (ADW) (+ a gotcha as per Sander Marechal)

  • Secure file permissions → restrictive native Linux permissions (optionally per vhost) (Gilles) or SELinux (see various comments)

  • Process-attached memory instead of filesystem (so a process crash removes the files) (originally intended by the question)

    • don't let the file data reach PHP directly → reverse-proxy (Cal)

    • disable PHP writing to the filesystem → see PHP bug link in this answer (Stephan B) or run PHP in CGI mode (Phil Lello)

    • write-only files → /dev/null filesystem (Phil Lello) (this is useful if you have access to the data as a stream additionally but cannot turn off the file-writing functionality that runs in parallel; whether PHP allows this is unclear)

Re: your files, post-upload

share|improve this question
Is there a way to teach PHP to look for temporary file as blobs in memory rather than in the filesystem? --> use tmpfs for the temp upload directory. – Artefact2 May 2 '11 at 20:32
@Artefact2: The keyword is very much filesystem (see the rest of the paragraph you quoted). That wouldn't help me at all, I'm afraid. – pinkgothic May 3 '11 at 7:56
Why no just secure the file system? Run your php/apache or whatever under a functional user id and allow that user id and only that user id access to the temp directory. – James Anderson May 3 '11 at 9:46
@James Anderson: I'd like something that's per-process or even per-request, not per-program. There are powerful per-program solutions (SELinux/EncFS/comparable), which, while not perfect, certainly mitigate the issue, and so that's definitely a step that'll be pursued, but it's still sub-optimal. – pinkgothic May 3 '11 at 11:11
Whoever went through literally all answers and downvoted them (this is what it looks like right now, I apologise if I'm misjudging that), I upvoted some of the answers you downvoted and would really appreciate if you said why you downvoted them, so that I know why not to pursue that avenue. – pinkgothic May 4 '11 at 22:46

10 Answers 10

up vote 5 down vote accepted

Have you considered putting a layer between the user and the web server? Using something like perlbal with some custom code in front of the web server would allow you to intercept uploaded files before they are written anywhere, encrypt them, write them to a local ramdisk and then proxy the request on the the web server proper (with the filename and decryption key to the files).

If the PHP process crashes, the encrypted file is left around but can't be decrypted. No unencrypted data gets written to (ram)disk.

share|improve this answer
Hawt. Thank you, this is fairly close to what I initially envisioned as a solution, but couldn't for the life of me figure out how to do without writing something entirely from scratch. 'Reverse proxy' is the keyword I've not been thinking of. Much thanks for the Perlbal link! – pinkgothic May 4 '11 at 8:11
A similar approach would be to use mod_ext_filter (provided with HTTPd). It's capable of sending the request body to a command-line program which then returns the (modified) body for further request processing. In the external program you could parse the request parts, generate a long encryption key (symmetric should be okay), encrypt the file content parts with it and add the encryption key as a request variable to the request body. In PHP you decrypt the uploaded files with that key. The files would still be stored on disc by PHP, but thy would be encrypted with a nearly random long key. – jCoder May 6 '11 at 17:03
I accepted this as my answer because it's probably the most intuitive solution to my actual question. :) (I figured I'd split the accepting and the bounty because there are so many great and insightful answers here.) Thank you for answering! – pinkgothic May 8 '11 at 15:29

CGI to the rescue!

If you create a cgi-bin directory, and configure appropriately, you'll get the message via stdin (as far as I can tell, files aren't written to disk at all this way).

So, in your apache config add

ScriptAlias /cgi-bin/ /var/www/<site-dir>/cgi-bin/
<Directory "/var/www/<site-dir>/cgi-bin">
    AllowOverride None
    Options +ExecCGI -MultiViews +SymLinksIfOwnerMatch
    Order allow,deny
    Allow from all

Then write a CGI-mode PHP script to parse the post data. From my (limited) testing, no local files appear to be created. The sample dumps what it reads from stdin as well as the environment variables, to give you an idea of what's there to work with.

Sample script installed as /var/www//cgi-bin/test

Content-type: text/html

<form enctype="multipart/form-data" action="/cgi-bin/test" method="POST">
    <!-- MAX_FILE_SIZE must precede the file input field -->
    <input type="hidden" name="MAX_FILE_SIZE" value="30000" />
    <!-- Name of input element determines name in $_FILES array -->
    Send this file: <input name="userfile" type="file" />
      <input type="submit" value="Send File" />
echo "\nRequest body\n\n";
$handle = fopen ("php://stdin","r");
while (($line = fgets($handle))) echo "$line";
echo "\n\n";
echo "\n\n";

Sample output This is the output (source) when I upload a plain-text file:

<form enctype="multipart/form-data" action="/cgi-bin/test" method="POST">
    <!-- MAX_FILE_SIZE must precede the file input field -->
        <input type="hidden" name="MAX_FILE_SIZE" value="30000" />
        <!-- Name of input element determines name in $_FILES array -->
        Send this file: <input name="userfile" type="file" />
          <input type="submit" value="Send File" />

Request body

Content-Disposition: form-data; name="MAX_FILE_SIZE"

Content-Disposition: form-data; name="userfile"; filename="uploadtest.txt"
Content-Type: text/plain

This is some sample text




Variable => Value
HTTP_USER_AGENT => Mozilla/5.0 (X11; U; Linux x86_64; en-GB; rv: Gecko/20110323 Ubuntu/10.04 (lucid) Firefox/3.6.16
HTTP_ACCEPT => text/html,application/xhtml+xml,application/xml;q=0.9,*/*;q=0.8
HTTP_ACCEPT_LANGUAGE => en-gb,en;q=0.5
HTTP_ACCEPT_ENCODING => gzip,deflate
HTTP_ACCEPT_CHARSET => ISO-8859-1,utf-8;q=0.7,*;q=0.7
HTTP_CONNECTION => keep-alive
CONTENT_TYPE => multipart/form-data; boundary=---------------------------19908123511077915841334811274
PATH => /usr/local/bin:/usr/bin:/bin
SERVER_SIGNATURE => <address>Apache/2.2.14 (Ubuntu) Server at Port 80</address>

SERVER_SOFTWARE => Apache/2.2.14 (Ubuntu)
DOCUMENT_ROOT => /var/www/
SERVER_ADMIN => webmaster@localhost
SCRIPT_FILENAME => /var/www/
REMOTE_PORT => 58012
REQUEST_URI => /cgi-bin/test
SCRIPT_NAME => /cgi-bin/test

share|improve this answer
Parsing the MIME is left as an exercise for the reader. – Phil Lello May 4 '11 at 0:55
o_O This sounds near-infinitely exciting if true. I'm not sure if CGI-mode PHP is an option for us (I suspect not), but this is a completely different avenue. Definitely have to look into this 'unusual' behaviour. Much thanks! – pinkgothic May 4 '11 at 8:17
Presumably security constraints prevent you discussing the security constraints... if not, what would the object to CGI be? – Phil Lello May 4 '11 at 15:20
I think I could probably dare to be that precise, actually! :) But I don't think I can go into that without it becoming a larger blurb. The most trivial and quickest to mention here is performance. Then I've been cited a number of security concerns with CGI handlers, none of which I know off the top of my head (not my area of expertise). But! You'll notice I haven't edited my question to disqualify CGI-PHP, and I don't intend to. It's the most elegant solution I currently see. (Whereas we'll probably patch PHP, which I wouldn't recommend to anyone else looking for an answer to this question.) – pinkgothic May 4 '11 at 15:30
+1 for the manual input processing. Preventing PHP's automatic $_FILES array from being created is probably the only viable approach towards keeping the temp file off of the filesystem. – Charles May 8 '11 at 1:41

I had a flash of inspiration on this: black-hole filesystems.

Essentially, this is a fake filesystem, where data never gets written, but all files exists, and have no content.

There's a discussion on about these, and one answer involves a FUSE implementation of just this (quoted here):

This isn't supported out-of-the-box on any unix I know, but you can do pretty much anything with FUSE. There's at least one implementation of nullfs¹, a filesystem where every file exists and behaves like /dev/null (this isn't the only implementation I've ever seen).

¹ Not to be confused with the *BSD nullfs, which is analogous to bindfs.

I haven't had a chance to test this but if you set the upload_tmp_dir to a black-hole location, the upload (would|should) never be written to disk, but still be available in $HTTP_RAW_POST_DATA (or php://input). If it works, it's better than patching PHP

share|improve this answer
While this is a possibility, if I understand the problem correctly, it's not actually necessary. – Gilles May 5 '11 at 23:31
If anyone tests this, please leave a comment to share the results - at the moment this is expected, but untested, behaviour – Phil Lello May 6 '11 at 2:47
Wow! This sounds absolutely bizarre. Very nice train of thought. Has me balking right this instant, but I'm going to let this sit for a while and think about the ramifications. Much thanks for the answer. – pinkgothic May 6 '11 at 8:27

I'm not familiar with PHP, so my answer won't map directly into a how-to, but I think you're laboring under some misconceptions about what protection various system features provide, which have led you to reject valid solutions in favor of solutions that have exactly the same security properties. From your comments, I gather you're running Linux; most of my answer applies to other unices, but not to other systems such as Windows.

As far as I can see, you're concerned about three attack scenarios:

  1. The attacker gains physical access to the machine, shuts it down, pulls out the disk and read its contents to her leasure. (If the attacker can read your RAM, you've lost already.)
  2. The attacker can run code as a user on the machine.
  3. A bug in the CGI scripts allows a process to read temporary files created by other processes.

The first kind of attacker can read everything that's unencrypted on the disk, and nothing that's encrypted with a key she doesn't have.

What the second kind of attacker can do depends on whether she can run code as the same user that's running your CGI scripts.

If she can only run code as other users, then the tool to protect the files is permissions. You should have a directory that's mode 700 (= drwx------), i.e. only accessible by a user, and owned by the user running the CGI scripts. Other users won't be able to access the files under this directory. You don't need any additional encryption or other protection.

If she can run code as the CGI user (which, of course, includes running code as root), then you've lost already. You can see the memory of another process if you're running code as the same user — debuggers do it all the time! Under Linux, you can easily see it for yourself by exploring /proc/$pid/mem. Compared with reading a file, reading a process's memory is a little more technically challenging, but security-wise, there's no difference.

Thus having the data in files is not in itself a security problem.

Let's now examine the third concern. The worry is that a bug in the CGI allows the attacker to snoop on files but not to run arbitrary code. This is related to a reliability issue − if the CGI process dies, it may leave temporary files behind. But it's more general: the file might be read by a concurrently-running script.

The best way to protect against this is indeed to avoid having the data stored in a file at all. This should be done at the level of PHP or its libraries, and I can't help with that. If it's not possible, then nullfs as suggested by Phil Lello is a reasonable workaround: the PHP process will be thinking it's writing data to a file, but the file will never actually contain any data.

There's another common unix trick which might be useful here: once you've created a file, you can unlink (remove) it and continue working with it. As soon as it's unlinked, the file can't be accessed by its former name, but the data remains in the filesystem as long as the file is open in at least one process. However, this is mostly useful for reliability, to get the OS to remove the data when the process dies for any reason. An attacker who can open arbitrary files with the process's permissions can access the data through /proc/$pid/fd/$fd. And an attacker who can open files at any time has a small window between the creation of the file and its unlinking: if she can open the file then, she can watch data that's added to it subsequently. This may nonetheless be useful protection, as it turns the attack into one that is time-sensitive and may require many concurrent connections, so could countered or at least made much more difficult by a connection rate limiter.

share|improve this answer
@Gilles +1 For a very good point about /proc/<PID>/mem. I largely agree here; however, when multiple teams with different responsibilities are involved, it is sometimes necessary to provide the illusion of added security (even if it's a fudge to make marketing materials technically true) - I have no idea if that's true here. There's also a slim chance a process could open a temp file before it gets purged from disk, keeping it on-disk but off-directory; I can't immediately think of a similar way to lock data in memory. – Phil Lello May 6 '11 at 0:56
@Phil: Oh, a process can open a file and immediately unlink it. But that's not for security (debugging features will still permit access to the file, and under Linux there's no ptrace required, you can go and read it in /proc/$pid/fd), it's so that the file will be reaped automatically if the process dies a messy death. – Gilles May 6 '11 at 7:09
While I appreciate your concerns (they're very valid in general and very valuable in security in general), I'm afraid you do miss what I'm trying to achieve. The idea is to have the file be discarded the moment the process dies, without having to rely on an however clocked out-of-process cron job or other features that removes the file. In that, having the data in files is a security problem (albeit certainly not the only one, I agree) - they might persist much longer than ever necessary. – pinkgothic May 6 '11 at 8:19
This is absolutely regardless to where they're stored (disc or RAM). I don't at all mind the disc part. I mind the out-of-process part. :) – pinkgothic May 6 '11 at 8:21
@pinkgothic: Ah, I see. Then what you want is indeed to not get the data in the filesystem in the first place. Having the OS remove the file automatically is easy but not sufficient. Encryption wouldn't buy you anything, after all the PHP processes would have to have the key. – Gilles May 6 '11 at 10:54

Have you looked into using FUSE to create an encrypted directory which can only be accessed by a specific user?

The memory won't be associated with a specific process but the files will only be accessible to a specific user (the same one your web server runs as to be useful!) which might be enough?

share|improve this answer
"the files will only be accessible to a specific user" - this sounds like it's strongly related to what SELinux offers (see comments @ plasmid87's answer), and is definitely something we're going to pursue. Thanks for the link! – pinkgothic Apr 20 '11 at 16:08
Note that encfs encrypts files on a file-by-file basis. It's not volume encryption. This still leaves metadata out in the open, though the actual file contents is encrypted. – Sander Marechal May 4 '11 at 5:56

PHP will store uploaded files to the filesystem before your script has the chance to intercept the data php://input and $HTTP_RAW_POST_DATA will be empty in this case (even when you set file_uploads = Off).

For small files, you could try to set <form enctype="application/x-www-form-urlencoded" ... but I did not succeed using this. I suggest you recompile php and comment out the part handling file-uploads like in this Bug report (Comment by

Pro: No file uploads at all, Data in php://input Con: Recompile, no Vendor support

share|improve this answer
Yeah, your first paragraph is exactly the problem I'm addressing. This is really a gem, though! Thank you for that bug report link! That grants some phenomenal insights. (I never thought re-routing things to php://input would be that 'easy'! Will have to play around with this a bit...) – pinkgothic May 3 '11 at 11:20

Your concerns are valid. There are a few solutions to this problem. One is to store the file in a database. A NoSQL database like MongoDB or CouchDB are built to efficiently store files. MySQL is another option and has advantages over NoSQL. A relational database like MySQL makes it very easy to implant access control because you can relate the files and users table by a primary key.

In MySQL you can use the longblob datatype holds 2^32 bits or about ~500mb. You can create a table that is memory resident by using the MEMORY engine: CREATE TABLE files ENGINE=MEMORY .... Further more. MySQL does have encryption in the form of aes_encrypt() and des_encrypt() but they both use ECB mode which is garbage.

unlink($_FILES['sensitive']['tmp_name']);//delete the sensitive file. 
$sensi_file=mysql_real_escape_string($sensi_file);//Parametrized quires will also use this function so that should also be binary safe.
mysql_query("insert into files (file)values('$sensi_file')"); 

Just select out the file and use it just like you would $sensi_file. Keep in mind that you are escaping the input to obtain he character literals and thus storing the raw binary.

share|improve this answer
This is some great stuff on file handling in general that I've never seen before, but... $_FILES['sensitive']['tmp_name'] is my problem - the file is is already in the filesystem, PHP put it there. I don't want it to ever be there (at least unencrypted) in the first place. If the PHP process continues as it should, we're already handling the data as we'd like. In case of a crash, we rely on out of process clean-ups, though. – pinkgothic May 3 '11 at 8:05
(I am almost entirely sure at this point that there is no better solution to this than 'use SELinux/comparable' or 'fork PHP' or 'don't use PHP', but I like to hope!) – pinkgothic May 3 '11 at 8:06
@pinkgothic The behavior of File uploads is controlled by PHP and is written in C++. I would advice against messing with the code directly although it is an option. You could setup a small ram disk and set that as your destination for tmp uploaded files. – rook May 3 '11 at 18:13
"The behavior of File uploads is controlled by PHP and is written in C++." I'm aware. :) The RAM disk doesn't address the security issue, though. Still, thank you very much for your insights! – pinkgothic May 3 '11 at 21:01

You can create a tmpfs and mount it with a proper umask. That way, the only processes that can read files off it are the users who created it. And, because this is a tmpfs, nothing is ever stored on disk.

I would advise against ADW's encfs solution. Encfs does not encrypt volumes but it encrypts files on a file-by-file basis, still leaving a lot of metadata exposed.

share|improve this answer
'nothing is ever stored on disk' - the problem isn't disc, though, the problem is that it's in the filesystem. 'Proper umasks' would at best be a per-program (PHP/Apache) solution, whereas I'm looking for a per-request solution. But much thanks for the encfs heads-up! Appreciated. – pinkgothic May 4 '11 at 8:09
Proper umask can also be a per-user solution. Just umask so that uploaded files belong to a specific user and have permissions 600 for example. Then let PHP-FPM handle that each vhost runs as a different user. – Sander Marechal May 4 '11 at 8:52
Ah, I see what you're thinking! We're not using multiple vhosts. This isn't a shared-server setup, it's a single high-security web-application. Confidentiality is for the end-user, so that if the system is compromised at any time, you don't end up having potentially important client files in the temporary file system. – pinkgothic May 4 '11 at 8:56

the most obvious approach would be:

i don't see any problems with that. just be sure you allocate enough space tough.

you can real time encrypt with LUKS or truecrypt


after your comment i think i now understand your problem

apache/php doesnt support this.

you can however write your own deamon, open a socket connection to listen on and handle incoming data in whatevery way you want. basically writing your own webserver in php. shouldnt be too much work. there are also some nice classes available. zend has some server libraries that faciliate http handling.

but you could do this far easier in perl. you can just file post data chunk by chunk in to process associated memory. php just has a different work flow.

share|improve this answer
No, RAMdisc and associated 'solutions' still are filesystem solutions. I don't want the file in the filesystem - I want it in process-associated memory, where a process crash will automatically remove it. In the filesystem (regardless whether it is mapped to disc or to RAM), a process crash would not automatically remove the file. – pinkgothic May 7 '11 at 19:50
ok i understand. edited my anwer. – The Surrican May 8 '11 at 1:38

Have you considered creating a RAMdisk under Linux?

Since this will appear as a native file-system location, you need only point your PHP instance (assuming it has the correct permissions) at this location.

I'm not sure what the ramifications are if the disk fails, I would imagine the location would become unwritable or absent. There may be further ramifications surrounding performance and large files, but as this is not my area of expertise I cannot tell you much about that.

Hope this is of some help.

share|improve this answer
Thanks for taking the time to respond, but... I'm afraid not. The issue I'm trying to address is unencrypted 'third-party process' access to the temporary files if the process crashes (or at all, really). RAMdisk, to my understanding, wouldn't fix that - the memory is associated with the filesystem, not the process. You've still got unencrypted temporary files, they're just not stored on disc. [You'll notice I use the word "filesystem" in my question, not "disc" - this is intentional.] – pinkgothic Apr 18 '11 at 11:58
A footnote - the author of that introductory tutorial article indicates that when the RAMdisk is destroyed, there are no leftover artefacts. I would recommend purging your Apache logs, however, as these may contain access traces etc. – plasmid87 Apr 18 '11 at 12:01
My apologies I didn't read the question thoroughly enough. It is possible to encrypt the files on the fly and store them in the temporary disk, but you might find your server suffers if you have a very high throughput. Would it be sufficient to use a combination of stringent file-system permissions and a security daemon (e.g., SELinux) to prevent access to any process / user aside from Apache + PHP? – plasmid87 Apr 18 '11 at 12:05
We're looking into SELinux, actually, so that's definitely an option, but it's one of those things we'd rather not rely on as sole security measure for the temporary files. Encrypting files on the fly would be perfect, though - performance is not really our concern. How would one make PHP do that? (Sidenote, regarding your prior comment: Our logs are taken care of, but that's valuable advice to others, so thank you for putting that here.) – pinkgothic Apr 18 '11 at 12:13
If you're using file upload through POST, by default your file will be written to disk (usually /tmp). My solution isn't completely "on-the-fly" (i.e., in process) but it might suit your needs. You could try modifying upload_tmp_dir (php.ini) to the location of your RAMdisk. Once this is done, put in a post-upload call to GPG. I'm sure there are a couple of SO posts on doing this, but for convenience here is a quick tutorial on doing it on devzone [link] This comes back to what I mentioned earlier about overhead and dependency on a system binary. – plasmid87 Apr 18 '11 at 14:09

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