A Slower Speed of Light Official Trailer — MIT Game Lab (by Steven Schirra)
“A Slower Speed of Light is a first-person game in which players navigate a 3D space while picking up orbs that reduce the speed of light in increments. A custom-built, open-source relativistic
graphics engine allows the speed of light in the game to approach the player’s own maximum walking speed. Visual effects of special relativity gradually become apparent to the player, increasing
the challenge of gameplay. These effects, rendered in realtime to vertex accuracy, include the Doppler effect; the searchlight effect; time dilation; Lorentz transformation; and the runtime
effect.
A production of the MIT Game Lab.
Play now for Mac and PC! http://gamelab.mit.edu/games/a-slower-speed-of-light/”
This sounds like an Onion article but is actually a real article on NOAA’s website describing why we can’t use nukes to destroy tropical storms. This in the frequently asked questions.
TypeScript is a typed superset of JavaScript that adds interfaces, and type safety and compiles to JavaScript. In VS this means you get much better auto completion suggestions. Watch the Channel9 video.
How the 8.5” x 11” Piece of Paper Got Its Size
Why do we use a paper size that is so unfriendly for the basic task of reading? According to a very interesting post by Paul Stanley, the rough dimensions of office paper evolved to accommodate handwriting and typewriters with monospaced fonts, both of which rendered many fewer characters per line. “Typewriters,” he explains, “produced 10 or 12 characters per inch: so on (say) 8.5 inch wide paper, with 1 inch margins, you had 6.5 inches of type, giving … around 65 to 78 characters.” This, he says, is “pretty close to ideal.”
Read more. [Image: Picsfive/Shutterstock]
An analysis of leaked PIN numbers.
… nearly 11% of the 3.4 million passwords are 1234 !!!
Level 7 of the Stripe CTF involved running a length extension attack on the level 7 server's custom crypto code.
@app.route('/logs/')
@require_authentication
def logs(id):
rows = get_logs(id)
return render_template('logs.html', logs=rows)
...
def verify_signature(user_id, sig, raw_params):
# get secret token for user_id
try:
row = g.db.select_one('users', {'id': user_id})
except db.NotFound:
raise BadSignature('no such user_id')
secret = str(row['secret'])
h = hashlib.sha1()
h.update(secret + raw_params)
print 'computed signature', h.hexdigest(), 'for body', repr(raw_params)
if h.hexdigest() != sig:
raise BadSignature('signature does not match')
return TrueThe level 7 web app is a web API in which clients submit signed RESTful requests and some actions are restricted to particular clients. The goal is to view the response to one of the restricted actions. The first issue is that there is a logs path to display the previous requests for a user and although the logs path requires the client to be authenticatd, it doesn't restrict the logs you view to be for the user for which you are authenticated. So you can manually change the number in the '/logs/[#]' to '/logs/1' to view the logs for the user ID 1 who can make restricted requests. The level 7 web app can be exploited with replay attacks but you won't find in the logs any of the restricted requests we need to run for our goal. And we can't just modify the requests because they are signed.
However they are signed using their own custom signing code which can be exploited by a length extension attack. All Merkle–Damgård hash algorithms (which includes MD5, and SHA) have the property that if you hash data of the form (secret + data) where data is known and the length but not content of secret is known you can construct the hash for a new message (secret + data + padding + newdata) where newdata is whatever you like and padding is determined using newdata, data, and the length of secret. You can find a sha-padding.py script on VNSecurity blog that will tell you the new hash and padding per the above. With that I produced my new restricted request based on another user's previous request. The original request was the following.
count=10&lat=37.351&user_id=1&long=%2D119.827&waffle=eggo|sig:8dbd9dfa60ef3964b1ee0785a68760af8658048ccount=10&lat=37.351&user_id=1&long=%2D119.827&waffle=eggo%80%02%28&waffle=liege|sig:8dbd9dfa60ef3964b1ee0785a68760af8658048cCode review red flags included custom crypto looking code. However I am not a crypto expert and it was difficult for me to find the solution to this level.
Level 5 of the Stripe CTF revolved around a design issue in an OpenID like protocol.
def authenticated?(body)
body =~ /[^\w]AUTHENTICATED[^\w]*$/
end
...
if authenticated?(body)
session[:auth_user] = username
session[:auth_host] = host
return "Remote server responded with: #{body}." \
" Authenticated as #{username}@#{host}!"This level is an implementation of a federated identity protocol. You give it an endpoint URI and a username and password, it posts the username and password to the endpoint URI, and if the response is 'AUTHENTICATED' then access is allowed. It is easy to be authenticated on a server you control, but this level requires you to authenticate from the server running the level. This level only talks to stripe CTF servers so the first step is to upload a document to the level 2 server containing the text 'AUTHENTICATED' and we can now authenticate on a level 2 server. Notice that the level 5 server will dump out the content of the endpoint URI and that the regexp it uses to detect the text 'AUTHENTICATED' can match on that dump. Accordingly I uploaded an authenticated file to
https://level02-2.stripe-ctf.com/user-ajvivlehdt/uploads/authenticatedhttps://level05-1.stripe-ctf.com/user-qtoyekwrod/?pingback=https%3A%2F%2Flevel02-2.stripe-ctf.com%2Fuser-ajvivlehdt%2Fuploads%2Fauthenticated&username=a&password=aI didn't see any particular code review red flags, really the issue here is that the regular expression testing for 'AUTHENTICATED' is too permisive and the protocol itself doesn't do enough. The protocol requires only a set piece of common literal text to be returned which makes it easy for a server to accidentally fall into authenticating. Having the endpoint URI have to return variable text based on the input would make it much harder for a server to accidentally authenticate.
Stripe's web security CTF's Level 1 and level 2 of the Stripe CTF had issues with missing input validation solutions described below.
$filename = 'secret-combination.txt';
extract($_GET);
if (isset($attempt)) {
$combination = trim(file_get_contents($filename));
if ($attempt === $combination) {The issue here is the usage of the extract php method which extracts name value pairs from the map input parameter and creates corresponding local variables. However this code uses $_GET which contains a map of name value pairs passed in the query of the URI. The expected behavior is to get an attempt variable out, but since no input validation is done I can provide a filename variable and overwrite the value of $filename. Providing an empty string gives an empty string $combination which I can match with an empty string $attempt. So without knowing the combination I can get past the combination check.
Code review red flag in this case was the direct use of $_GET with no validation. Instead of using extract the developer could try to extract specifically the attempt variable manually without using extract.
$dest_dir = "uploads/";
$dest = $dest_dir . basename($_FILES["dispic"]["name"]);
$src = $_FILES["dispic"]["tmp_name"];
if (move_uploaded_file($src, $dest)) {
$_SESSION["dispic_url"] = $dest;
chmod($dest, 0644);
echo "Successfully uploaded your display picture.
";
}
This code accepts POST uploads of images but with no validation to ensure it is not an arbitrary file. And even though it uses chmod to ensure the file is not executable, things like PHP don't require a file to be executable in order to run them. Accordingly, one can upload a PHP script, then navigate to that script to run it. My PHP script dumped out the contents of the file we're interested in for this level:
Code review red flags include manual file management, chmod, and use of file and filename inputs without any kind of validation. If this code controlled the filename and ensured that the extension was one of a set of image extensions, this would solve this issue. Due to browser mime sniffing its additionally a good idea to serve a content-type that starts with "image/" for these uploads to ensure browsers treat these as images and not sniff for script or HTML.
Stripe's web security CTF's level 0 and level 3 had SQL injection solutions described below.
app.get('/*', function(req, res) {
var namespace = req.param('namespace');
if (namespace) {
var query = 'SELECT * FROM secrets WHERE key LIKE ? || ".%"';
db.all(query, namespace, function(err, secrets) {There's no input validation on the namespace parameter and it is injected into the SQL query with no encoding applied. This means you can use the '%' character as the namespace which is the wildcard character matching all secrets.
Code review red flag was using strings to query the database. Additional levels made this harder to exploit by using an API with objects to construct a query rather than strings and by running a query that only returned a single row, only ran a single command, and didn't just dump out the results of the query to the caller.
@app.route('/login', methods=['POST'])
def login():
username = flask.request.form.get('username')
password = flask.request.form.get('password')
if not username:
return "Must provide username\n"
if not password:
return "Must provide password\n"
conn = sqlite3.connect(os.path.join(data_dir, 'users.db'))
cursor = conn.cursor()
query = """SELECT id, password_hash, salt FROM users
WHERE username = '{0}' LIMIT 1""".format(username)
cursor.execute(query)
res = cursor.fetchone()
if not res:
return "There's no such user {0}!\n".format(username)
user_id, password_hash, salt = res
calculated_hash = hashlib.sha256(password + salt)
if calculated_hash.hexdigest() != password_hash:
return "That's not the password for {0}!\n".format(username)There's little input validation on username before it is used to constrcut a SQL query. There's no encoding applied when constructing the SQL query string which is used to, given a username, produce the hashed password and the associated salt. Accordingly one can make username a part of a SQL query command which ensures the original select returns nothing and provide a new SELECT via a UNION that returns some literal values for the hash and salt. For instance the following in blue is the query template and the red is the username injected SQL code:
SELECT id, password_hash, salt FROM users WHERE username = 'doesntexist' UNION SELECT id, ('5e884898da28047151d0e56f8dc6292773603d0d6aabbdd62a11ef721d1542d8') AS password_hash, ('word') AS salt FROM users WHERE username = 'bob' LIMIT 1Code review red flag is again using strings to query the database. Although this level was made more difficult by using an API that returns only a single row and by using the execute method which only runs one command. I was forced to (as a SQL noob) learn the syntax of SELECT in order to figure out UNION and how to return my own literal values.
I was the 546th person to complete Stripe's web security CTF and again had a ton of fun applying my theoretical knowledge of web security issues to the (semi-)real world. As I went through the levels I thought about what red flags jumped out at me (or should have) that I could apply to future code reviews:
| Level | Issue | Code Review Red Flags |
|---|---|---|
| 0 | Simple SQL injection | No encoding when constructing SQL command strings. Constructing SQL command strings instead of SQL API |
| 1 | extract($_GET); | No input validation. |
| 2 | Arbitrary PHP execution | No input validation. Allow file uploads. File permissions modification. |
| 3 | Advanced SQL injection | Constructing SQL command strings instead of SQL API. |
| 4 | HTML injection, XSS and CSRF | No encoding when constructing HTML. No CSRF counter measures. Passwords stored in plain text. Password displayed on site. |
| 5 | Pingback server doesn't need to opt-in | n/a - By design protocol issue. |
| 6 | Script injection and XSS | No encoding while constructing script. Deny list (of dangerous characters). Passwords stored in plain text. Password displayed on site. |
| 7 | Length extension attack | Custom crypto code. Constructing SQL command string instead of SQL API. |
| 8 | Side channel attack | Password handling code. Timing attack mitigation too clever. |
More about each level in the future.
When they went to the Moon, they received the same per diem compensation as they would have for being away from base in Bakersfield: eight dollars a day, before various deductions (like for accommodation, because the government was providing the bed in the spaceship).
Apollo 11’s Astronauts Received an $8 Per Diem for the Mission to the Moon
The astronauts of Apollo 11: Intrepid explorers. Inspirational heroes. Government employees.
Read more. [Image: Reuters]
Gangnam Style looks like he’s riding a horse but actually its satire.
Also, the making of video: http://youtu.be/9HPiBJBCOq8
CGI for the IKEA catalog:
That couch catching your eye in the 2013 edition of IKEA’s new catalog may not be a couch at all. It is likely the entire living room was created by a graphic artist. In fact, much of the furniture and settings in the 324-page catalog are simply a collection of pixels and polygons arranged on a computer.
A python script that d3crypt5 the input pipe’s ASCII content from ASCII garbage slowly into the correct output.
The U.S. Census Bureau today released a new online service that makes key demographic, socio-economic and housing statistics more accessible than ever before. The Census Bureau’s first-ever public Application Programming Interface (API) allows developers to design Web and mobile apps to explore or learn more about America’s changing population and economy.
One persons quest to watch the Olympics online.
The location requirements (guessed at via IP address) are irritating. The requirement that you have a particular cable subscription to view video online seems like not network neutrality.
Also this related article:
http://techcrunch.com/2012/07/27/nbc-olympic-opening-ceremony/
Former FireFox developer on the switch to their continuous update cycle.
Oh no, Chrome is doing such-and-such; we’d better do something equivalent or we’ll fall behind! We thought we needed a rapid update process like Chrome. We were jealous of their rapid update capability, which let them deploy improvements to users continuously. We had to “catch up” with Chrome’s updating capability.
Dealing with servicing on IE for years had led me to some of the same thoughts when I heard FireFox was switching to continuous updates.
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