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I have a mobile app (currently IOS and soon Android) which talks to a web service. There is no login and the data is not private. Basically, the app POSTs a marker (lon, lat) and GETs the nearest 25 markers to display on a map.

It's a very trivial app and I cannot imagine anyone putting great effort into abusing the web service. However, I can see there is fun for someone in POSTing many markers. What most concerns me is someone running a script that pushes many requests (using expensive bandwidth and making nonsense of my app data).

I am slowly reaching the conclusion this cannot be secure. The best answer is "do not do this". Do not provide a web service without authentication. Not many services are so open. Google's You Tube API is open but most are not. Unfortunately, I have no choice. So after days of looking at this here's my thinking. Be aware I am very far from a security expert and I am confident my approach could be improved upon. But it might point you in the right direction. Hopefully, someone more experienced might chime in and correct/improve upon this. I found this article and comments particularly helpful.

Message Level Security

I will secure the msgs with a hash encryption. The clients and web service all retain a copy of a shared secret which is used as a salt to create a hash from the URL and all the POST arguments. The hash is passed as an additional argument and the hash is rebuilt and compared at the other end (using the shared key as a salt). This is pretty good until you understand that any mobile client code can be reverse engineered in minutes. At which point this line of defense is utterly useless.

Client Measures

The client includes rate limiting of messages as a measure to restrict the number of messages sent by honest users. Yet again this is useless against an attacker who jailbreaks the mobile device.

Server Side Security

So the server side must have as much additional security measures as possible, to stand alone on the assumption that your client (and shared secret) is compromised. Here is what I have:

One msg arg is a UTC time which is used to limit replay attacks. This should prevent an attacker from firing the same msg at the server repeatedly.

The server performs rate limiting by IP. Yes, IPs are easily spoofed and proxy switching is childs play but everything helps when you have so little.

Of course, the server strictly validates all arguments, uses parametised queries and doesn't return exceptions.

Transport Level Security

Unfortunately, I am fairly confident that issuing individual client SSL certs is not possible without a registration process. And because I am using the msg hash check (and my data is not private) I am not entirely sure what SSL brings to the table. However, I will probably use SSL (with one app wide cert) because it adds another level of security that is easily and cheaply deployed (albeit at a cost of additional connection time for every msg).

The Gaping Great Big Hole In My Approach

I am warned that should the app become popular that someone will compromise the shared secret on the client. Just because they can and they will probably post it on the internet. So really it all comes down to the server side. Unfortunately, I have no way to identify and block an attacker. This I would dearly love.

A Final Plea

After days of research this is all I have. But I want more. I would particularly appreciate any ideas to beef up the server side. So, I have put all my SO points up as a bounty. Yes sir, all 97 points!

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It might just be worth adding rate limiting? That could be a simpler solution. –  Velox Aug 12 '12 at 15:15
    
@Velox Do you mean limiting the number of requests per client (per day)? If so, yes I am doing that on the app. But I do not see how I can do that server side beyond by IP (which is better than nothing but I am hoping something better is available). –  Polly Aug 12 '12 at 15:23
    
Do you maintain a list of registered devices or users who can push that data to you. If not do you expect it in the message .. or can anybody just push the data and you consume it ? –  Vamsi Mohan Jayanti Aug 12 '12 at 15:32
    
@VamsiMohanJayanti: There is no registration process. The app is downloaded and you're off. A requirement is no login. I can sort of imagine a device registration behind the scenes on first load - but that seems no more secure, and more load on the server, than a secret key solution. Please tell me if I am missing your point. –  Polly Aug 12 '12 at 15:39
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I like @kuba's solution, but want to warn against perhaps premature optimization. If you really do create an application that is popular and you really are acquiring spam, wouldn't you then also really redesign your API (if only to handle scaling issues)? You're attacker can hack your client easily, but you can also update your client/server and invalidate their hack... –  dsummersl Aug 23 '12 at 2:49

8 Answers 8

up vote 20 down vote accepted
+100

Actually in your particular case, since it is currently an iOS only app, there is a solution.

  1. After the user downloads and runs the app for the first time, the app hits a /access_token/create API that comes up with a GUID and relays it back to the Application via Apple's Push Notifications.

  2. App stores this access_token, and uses it on all subsequent requests. Your actual API's can rate limit on the basis of the access_token.

Basically, you let Apple do all the hard work of ensuring that the initial request came from an actual iOS device.

Extending this to Desktop clients is possible, but somewhat ruins the UX. Just change step 1 to allow /access_token/create to accept arbitrary requests, and if the request is not from a iOS device, then force the user to verify their email address/solve a captcha etc before issuing them an access_token.

Android devices (not really familiar with them) may have a similar Push Notification mechanism, in which case you can use that, or may not have a Push Notification mechanism, in which case you can subject your Android users to the inconvenience listed above.

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this is very interesting. Could you elaborate on it a little more because now it's quite unclear (at least for me)? What is this /access_token/create API you talk about? Is it some Apple service? How does it ensure coming from iOS device? How does server know that specific GUID was generated this way? What if iOS device was jailbroken? –  Kuba Wyrostek Aug 22 '12 at 20:06
    
the /access_token/create API is just any arbitrary URL that you yourself provide on your server. When the application first starts, it makes a call to this URL alongwith a device token that one can get by registering for push notifications. (The entire flow is documented by Apple at developer.apple.com/library/mac/#documentation/…). The server knows that the specific GUID was generated this way because the server itself generated it, and keep a list of the access_tokens that it has handed out. –  Manav Aug 23 '12 at 3:45
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For the last part of your question, I refer you to apple.stackexchange.com/questions/57225/… –  Manav Aug 23 '12 at 3:48
    
Very Nice. I had not even heard of APN. Google do have a push service. I am not qualified to say if this provides a similar level of security as APN. I am going to read further about these services. Thank you very much. –  Polly Aug 23 '12 at 7:18
    
As long as this solution really works on iOS and Android, and there are no jailbreak-related flaws or other "catches" - I really like it as possibly the easiest to implement. It should be the winner here. –  Kuba Wyrostek Aug 23 '12 at 8:59

It is tricky, you don't expect anybody to tamper the data ... so your concern is not about integrity. And since you do not maintain any list of clients ... there cannot be any concern about Authenticity?

And for all the well know Webservice attacks (like DoS or replay attacks) you get firewalls that can prevent them. So I don't think you need to bother about them much.

But then you you don't want to send plain text data and want to make sure that your download app is what is pushing the data.

If you look at the approaches you are evaluating :

Secured Key : As I understand the server and the App are going to share the same Key and if I am correct all the apps on all the devices will share the same Key. And when the app pushes the data it hashes the Actual feed and sends across Actual feed + the hashed feed. On the server side you would use the Key and hash the actual feed and verify if it is matching with the hashed feed. And in my opinion this solution is mainly addresses the Data integrity aspect which is not a major concern for you. rgt! (And yes it will probably be easy to reverse engineer.)

In the above approaches server would need to store the Key So if your Key is compromised your whole service will be and it will be difficult to update all the apps with new key. Or else if the app generates a Key it will have to send the key on the wire along with the message as digest or something(like timestamp + some random number). Not so difficult to break.

Certificate: Even with certificates you get the same security .. but it is difficult to break but easy to steel :). If you are keeping a private Key with device (ofcourse then you will have to maintain a public key at the server). You will have to assign a private key per client and then the server needs to maintain the public key for all private keys assigned. If a private key is compromized only that single app can be red flaged and requested for an update.

So what is left is from an application development perspective you want to avoid fabricated data. For sake of preventing mischief The the only point to check such things is in the application logic. You will need to cache the last ten(or what even the optimum number is) feeds (comming from same IP)and have some sort of logic verify if there is a flaw.

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RE:Certificate - Wouldn't issuing each device a cert require a CA? I think the cost of using a CA is too much for this project. Assuming that to be the case, then are you saying what I proposed (secret key on the client and watching IPs on the server) is about as good as I can do? –  Polly Aug 13 '12 at 19:04
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Yes if you go for CAs it will cost you. But I thing you can go for self signed certificates.Create your own CA and generate certificates using openssl. And since your App is the consumer (consumes the service) and you are the service provider I don't think you should have any problem with self signed certificates, you can always override the "Not a Trusted CA issue". IF you are planning for secret key .. are you going to maintain a key per IP or just a single key across? –  Vamsi Mohan Jayanti Aug 14 '12 at 4:30
    
RE:Secured Key - Are you suggesting a unique salt for each device (so I can red flag any abuser)? So, on first use the server sends a unique salt which it associates with the IP. It seems to me that this would be easily compromised by reverse engineering - the attacker would simply repeatedly reregister. Or am I misunderstanding your suggestion? –  Polly Aug 14 '12 at 8:30
    
RE:Certs - OK I had no idea I could be a CA with self signed certs. This would seem like an excellent solution. I have no idea how to implement and need to spend time looking at openssl. However, I have one question at this stage- Would any user interaction be required to create/download a unique cert or can this be done behind the scenes by my app alone? –  Polly Aug 14 '12 at 8:31

I've heard about this idea once, when talking about finding a global solution to SPAM problem: force your client to perform some time-taking computation.

To be precise: find some computational algorithm, that can compute some z for a pair of x and y in a blink of an eye, but it takes some considerable amount of time to compute z being given only x. I can not provide actual algorithm but I am sure that there are plenty of them that would much this criteria.

Now the whole procedure should look as follows:

  1. Upon first client request generate some session_id and for this session_id a pair of x and y.
  2. Provide your client with session_id and x.
  3. Client can start calculations as soon as it receives data (in some background thread not related to user interactions).
  4. To request markers, client must provide session_id and calculated z.
  5. You can quickly verify if client's z is all right, for you already have x and y that let you easily do it.
  6. (option 1) For each session_id store how much/often it is being requested. The moment you suspect it is being abused - force regenerating x and y.
  7. (option 2) Force new x and y upon each consecutive request for a session_id.

Choosing between 6 and 7 is actually tweaking that depends on the complexity of algorithm vs. expected 'fair' use of marker database. If your estimates are good - the evil client should never obtain too much data or overload your server.

Hope it helps.

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Interesting. I will need to spend time next week looking into this. I am keeping the question open until the last day of the bounty but I like that this is a fresh idea. Thank you. –  Polly Aug 18 '12 at 6:44
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A possible candidate problem is the discrete logarithm problem: for the equation g^x = h (mod p) [where p is a prime and g is a generator for the multiplicative group modulo p], solve for the power x given the base g and solution h. It is easy to compute g^x (mod p) but difficult to compute log_g(h) (mod p). –  apsillers Aug 22 '12 at 20:14

You could use rate limit + client 'soft' registration.

Basically you would generate a device ID that you could store in the user defaults upon the first request. For every request you track how many request have been sent to the server and limit it server side. This can be achieved really quickly.

You can also have some kind of shared secret used to sign your request with the generated device id + post/get parameters

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Thanks but if I understand correctly, this adds nothing against attackers who reverse engineer the code (at the expense of extra work server side for everyone). An attacker could simply repeatedly re-register. And I already have a shared secret signature. Have I have misunderstood your suggestion? –  Polly Aug 18 '12 at 5:59
    
If inside a mobile app, it would require some exploit to extract your shared secret. If you consider that, it's good enough to sign your request and apply an API Rate limitation. Tracking the clients (IP...) is also a good idea. When you generate the device ID, you can make it follow a pattern you and only you know as well... –  vfloz Aug 18 '12 at 12:50
    
Yes I would rest easy if decompiling an app wasn't possible. But it appears possible. I have no idea about how easy or how likely this is but if done my ws is wide open. Perhaps I am worrying too much. –  Polly Aug 18 '12 at 17:36
    
Look at all the app that embed Facebook and Twitter API_KEY and API_SECRET and that usually, have them in a #define API_KEK. With accessing such parameters, you'd be able to impersonate a developer's app, and it looks like they don't worry that much! :) –  vfloz Aug 20 '12 at 15:01

There is nothing really you can do on the client side. You have to give the whole app (including any keys or any other protection mechanism) to your user. If a malicious user wants to play mischief with your web service he will have to do some reverse engineering to get to your web service. You can make this harder, but you cannot prevent this, no matter how hard you try.

I’d just implement some server-side rate limiting (per IP address) and not worry any more about this. This is a battle you cannot win. If someone really wants to hurt your server he could just DDOS it without knowing anything about your web service protocol.

Also, generating an unique key or certificate per user automatically on first connect does not help at all. After an attacker reverse-engineered your protocol he knows how to handle all this and doesn't have to play by your rules. Nothing would stop him from requesting a new key from your server every time he runs into the rate limiting.

The approach Kuba Wyrostek described could work - make the client perform some time-consuming computation you can quickly check before you allow the request to be processed. But this can't take too long or your users will complain about the reduced battery life. Also an attacker will probably use more powerful desktop hardware instead of another iPhone.

And a last point - do you really think this is necessary? You don’t want your users to have to register, so your data or service can’t be too important. So what would anyone have to gain from reverse-engineering your app and flooding your server with requests?

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Great points, especially the last. The data is entirely unimportant (except for the value in cheating the game). However, I will, at least (as well as server side rate limiting), secure msgs with a hash to force reverse engineering - this seems like a small cost for a large obstacle. Thank you. –  Polly Aug 20 '12 at 7:45

I've actually been looking for a reason to implement a few of these ideas. Great question and answers so far.

I agree with @Kuba Wyrostek regarding treating it like a spam problem is part of the solution. Especially if your app will have textual messages (adding a store, service, or message), you may find that a common reason to spam your app would be to advertise something. That would lead to my first recommendation:

1) Treat each message's validity as a percentage from 0% to 100% valid. Develop a process on the server side to with heurestics to mark the message as more or less valid. This will allow you to target some of the additional methods (such as forcing a client to calculate a complex value) to only those requests where it is needed. You can also more easily log and review possible abuse (and more easily clean out that abuse after it is targeted).

Your apps do have a strong advantage over email servers in the spam war, however - you control both sides of the conversation. This situation actually reminds me of two other related situations that you might find helpful: the satellite Pay-TV "wars" and Instant Messenger clone "wars". (Reference Jeff Atwoods post on the Black Sunday hack, for example). Here are a few ideas from those standoffs that might help you get a little ahead of the game of cat and mouse:

2) Require the client to send extra data - as much data about the request as makes sense. On iOS, send the accuracy metrics for the location. On Android, you can actually get raw GPS data such as ephemeris information. You can then (maybe not right away, but later), start checking this data for validity. This forces someone reverse engineering the requests to work that much harder. If they send the GPS satellites in view, for example, you could check that against publicly known data to confirm.

3) Force your adversary onto the mobile device - As @Sven notes, your attacker might use a desktop PC, which means a "computationally expensive" request might become trivial. Don't let them do this (or at least make them work harder). You can, for example, have the client compute some mathematical function (sent by the server), and see, based on the phone model, if it takes the correct number of milliseconds to complete. Or do a small 3D rendering task with data from the server, that relies on hardware clipping behavior. Hash the result and send it back. All of these would be within a range - it is a multitasking OS. But it would help tremendously.

4) Go dynamic on them - Send along bits of algorithm that need to be computed in the client's context. Apple gets a little funny about remote code to be interpreted, but something like sending a bit of javascript that does not render to the user might work. That code could ask all sorts of unique questions (screen resolution, browser version, WebKit quirks) that would be hard to anticipate up front. As they catch up, you can get more creative with these.

5) CAPTCHA - If your heuristics start seeing suspect data, force them to authenticate. If you have a multilingual app, it could be as simple as matching a picture or unicode character to another one. Render it in a way that you can update it later.

Anyhow - a few additional ideas. Good luck!

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Great ideas. I do appreciate this whole spam approach from @Kuba and yourself. When I have some time I will need to evaluate how far I implement them. I am not sure my app warrants too much extra cpu work. But will be great for other apps with more important data. In my case I have no user text input and any text responses are passed as ints and switched on the client. I like the idea of a simple captacha for suspicious requests to thwart script. I have choices now. I just need to decide the balance which is a far better place than before these responses. Thank you. –  Polly Aug 20 '12 at 8:24

The simplest way to implement rate limiting on the server side is to just use a web server plugin/module. For example, if your service is running on apache, install and configure mod_evasive. This will allow you to rate limit based on IP address, service/URL, etc. Mod Evasive will be more effective than what you can implement on your own.

If you use keys, you need to have some kind of captcha based way for the client to get the keys upon signup. You could have it drop accounts for abusive users. Right, of course one parameter would be the timestamp which would be verified as recent and in the past on the server side. The key would encrypt the entire payload along with the timestamp, and be added as an additional parameter. Storing frequency of requests on a per-key basis ends up requiring some kind of round-robin database, unless you only check recency of last request.

No purely client-side rate limit will make any difference. Someone could discover your API on the web without ever even having seen your client. I doubt that a shared secret would be effective for long.

You will find plenty of web services that don't require a password and are merely rate limited... for example, the twitter API offers many rate-limited unauthenticated API services.

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Great tip about the web server plugin/module. And I stand corrected regarding the number of open web services. So much is new! Thank you. –  Polly Aug 21 '12 at 8:00

Here is another "solution":

  • don't waste time on this issue.

because:

  • you don't expose a public interface to the world, so you are free to change your webservice interface at any time via update of webservice and an update to your app.
  • the app is "very trivial" (as you called it) and probably isn't used much at the moment
  • you probably have better things to do right now and are just consuming time

if there are suspicious performance or query spikes go for the least time consuming solution:

  • introduce a password (clientid) saved in your app (blocks 95% of these users) this clientid can later be used to identify different clients if other programmers want to legally access your service
  • introduce rate limiting (as mentioned above)

this will in 99,99% solve your problems and you can get to work right now and write awesome new features.

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Fair point and possible what I would do where it not that the client is absolutely insistent upon no user registration/password now or in the future. She is convinced that uptake will rely on this. May I ask if you speak from experience? I would love to hear from a developer who put an API into the wild with no security. –  Polly Aug 23 '12 at 9:20
    
And as suggested by @dsummersl in a comment below the question I will be introducing any security measures incrementally. –  Polly Aug 23 '12 at 9:22
    
there is no registration going on. the clientid is hardcoded in your app. if other developers want to access your webservice just let them send an email to you and you send them a clientid. i had an webservice in the "wild" that just had this clientid. but fairly enough the android app wasn't something like popular. i used the same technique as jeff atwood in his blog and just used an static captcha. no spam was seen afterwards. –  Stephan Schinkel Aug 23 '12 at 9:41
    
Ah, sorry I misunderstood. There is no plan to give API access to other devs - so this would only possibly be a consideration for future versions. And any client side hard coded key must be assumed as compromised - maybe only upon wide uptake but to plan for little uptake is no plan at all. –  Polly Aug 23 '12 at 9:56

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