We have developed a service with REST APIs and an Android app that leverages it. We currently don't require our users to authenticate.
We would like to implement a simple mechanism to prevent the random person from invoking the APIs from outside of the scope of the app, mainly to avoid abuses that would spoil the data that we compute.
I stumbled upon this url where they suggest to have authentication enforced by having the server and Android client to share a secret and use that to compute an HMAC to pass along with the request. They claim that they use this approach in Amazon (I have no experience with Amazon AWS yet).
I'm considering to proceed as follows:
store a common secret in the Server and in the Android app (any good idea for obfuscating it, besides using ProGuard?)
Have client and server to communicate over plain HTTP (we don't need confidentiality yet and we will save some CPU) and use the HMAC method to authenticate the calls as "coming from a legitimate Android client".
From time to time we can update the secret (perhaps at each new version of the app).
If in future we will need confidentiality we will enable TLS for the relevant REST calls.
Do you think that this solution would work? Is anyone using something like this? Alternatives? Advices?
Thanks.
I am not a security expert.
Your solution sounds fine to protect you from "the random person", but you are still vulnerable to a dedicated attacker. Anything stored on the client can be dug out and used against you. ProGuard will dissuade a casual attacker, but against a dedicated attacker it's just a speed bump.
Nobody here is going to be able to tell you if that level of security is good enough, because it depends a lot on the specifics of your application. The final decision should rest with the product owner.
Is there any way to restrict post requests to my REST API only to requests coming from my own mobile app binary? This app will be distributed on Google Play and the Apple App Store so it should be implied that someone will have access to its binary and try to reverse engineer it.
I was thinking something involving the app signatures, since every published app must be signed somehow, but I can't figure out how to do it in a secure way. Maybe a combination of getting the app signature, plus time-based hashes, plus app-generated key pairs and the good old security though obscurity?
I'm looking for something as fail proof as possible. The reason why is because I need to deliver data to the app based on data gathered by the phone sensors, and if people can pose as my own app and send data to my api that wasn't processed by my own algorithms, it defeats its purpose.
I'm open to any effective solution, no matter how complicated. Tin foil hat solutions are greatly appreciated.
Any credentials that are stored in the app can be exposed by the user. In the case of Android, they can completely decompile your app and easily retrieve them.
If the connection to the server does not utilize SSL, they can be easily sniffed off the network.
Seriously, anybody who wants the credentials will get them, so don't worry about concealing them. In essence, you have a public API.
There are some pitfalls and it takes extra time to manage a public API.
Many public APIs still track by IP address and implement tarpits to simply slow down requests from any IP address that seems to be abusing the system. This way, legitimate users from the same IP address can still carry on, albeit slower.
You have to be willing to shut off an IP address or IP address range despite the fact that you may be blocking innocent and upstanding users at the same time as the abusers. If your application is free, it may give you more freedom since there is no expected level of service and no contract, but you may want to guard yourself with a legal agreement.
In general, if your service is popular enough that someone wants to attack it, that's usually a good sign, so don't worry about it too much early on, but do stay ahead of it. You don't want the reason for your app's failure to be because users got tired of waiting on a slow server.
Your other option is to have the users register, so you can block by credentials rather than IP address when you spot abuse.
Yes, It's public
This app will be distributed on Google Play and the Apple App Store so it should be implied that someone will have access to its binary and try to reverse engineer it.
From the moment its on the stores it's public, therefore anything sensitive on the app binary must be considered as potentially compromised.
The Difference Between WHO and WHAT is Accessing the API Server
Before I dive into your problem I would like to first clear a misconception about who and what is accessing an API server. I wrote a series of articles around API and Mobile security, and in the article Why Does Your Mobile App Need An Api Key? you can read in detail the difference between who and what is accessing your API server, but I will extract here the main takes from it:
The what is the thing making the request to the API server. Is it really a genuine instance of your mobile app, or is it a bot, an automated script or an attacker manually poking around your API server with a tool like Postman?
The who is the user of the mobile app that we can authenticate, authorize and identify in several ways, like using OpenID Connect or OAUTH2 flows.
Think about the who as the user your API server will be able to Authenticate and Authorize access to the data, and think about the what as the software making that request in behalf of the user.
So if you are not using user authentication in the app, then you are left with trying to attest what is doing the request.
Mobile Apps should be as much dumb as possible
The reason why is because I need to deliver data to the app based on data gathered by the phone sensors, and if people can pose as my own app and send data to my api that wasn't processed by my own algorithms, it defeats its purpose.
It sounds to me that you are saying that you have algorithms running on the phone to process data from the device sensors and then send them to the API server. If so then you should reconsider this approach and instead just collect the sensor values and send them to the API server and have it running the algorithm.
As I said anything inside your app binary is public, because as yourself said, it can be reverse engineered:
should be implied that someone will have access to its binary and try to reverse engineer it.
Keeping the algorithms in the backend will allow you to not reveal your business logic, and at same time you may reject requests with sensor readings that do not make sense(if is possible to do). This also brings you the benefit of not having to release a new version of the app each time you tweak the algorithm or fix a bug in it.
Runtime attacks
I was thinking something involving the app signatures, since every published app must be signed somehow, but I can't figure out how to do it in a secure way.
Anything you do at runtime to protect the request you are about to send to your API can be reverse engineered with tools like Frida:
Inject your own scripts into black box processes. Hook any function, spy on crypto APIs or trace private application code, no source code needed. Edit, hit save, and instantly see the results. All without compilation steps or program restarts.
Your Suggested Solutions
Security is all about layers of defense, thus you should add as many as you can afford and required by law(e.g GDPR in Europe), therefore any of your purposed solutions are one more layer the attacker needs to bypass, and depending on is skill-set and time is willing to spent on your mobile app it may prevent them to go any further, but in the end all of them can be bypassed.
Maybe a combination of getting the app signature, plus time-based hashes, plus app-generated key pairs and the good old security though obscurity?
Even when you use key pairs stored in the hardware trusted execution environment, all an attacker needs to do is to use an instrumentation framework to hook in the function of your code that uses the keys in order to extract or manipulate the parameters and return values of the function.
Android Hardware-backed Keystore
The availability of a trusted execution environment in a system on a chip (SoC) offers an opportunity for Android devices to provide hardware-backed, strong security services to the Android OS, to platform services, and even to third-party apps.
While it can be defeated I still recommend you to use it, because not all hackers have the skill set or are willing to spend the time on it, and I would recommend you to read this series of articles about Mobile API Security Techniques to learn about some complementary/similar techniques to the ones you described. This articles will teach you how API Keys, User Access Tokens, HMAC and TLS Pinning can be used to protect the API and how they can be bypassed.
Possible Better Solutions
Nowadays I see developers using Android SafetyNet to attest what is doing the request to the API server, but they fail to understand it's not intended to attest that the mobile app is what is doing the request, instead it's intended to attest the integrity of the device, and I go in more detail on my answer to the question Android equivalent of ios devicecheck. So should I use it? Yes you should, because it is one more layer of defense, that in this case tells you that your mobile app is not installed in a rooted device, unless SafetyNet has been bypassed.
Is there any way to restrict post requests to my REST API only to requests coming from my own mobile app binary?
You can allow the API server to have an high degree of confidence that is indeed accepting requests only from your genuine app binary by implementing the Mobile App Attestation concept, and I describe it in more detail on this answer I gave to the question How to secure an API REST for mobile app?, specially the sections Securing the API Server and A Possible Better Solution.
Do you want to go the Extra Mile?
In any response to a security question I always like to reference the excellent work from the OWASP foundation.
For APIS
OWASP API Security Top 10
The OWASP API Security Project seeks to provide value to software developers and security assessors by underscoring the potential risks in insecure APIs, and illustrating how these risks may be mitigated. In order to facilitate this goal, the OWASP API Security Project will create and maintain a Top 10 API Security Risks document, as well as a documentation portal for best practices when creating or assessing APIs.
For Mobile Apps
OWASP Mobile Security Project - Top 10 risks
The OWASP Mobile Security Project is a centralized resource intended to give developers and security teams the resources they need to build and maintain secure mobile applications. Through the project, our goal is to classify mobile security risks and provide developmental controls to reduce their impact or likelihood of exploitation.
OWASP - Mobile Security Testing Guide:
The Mobile Security Testing Guide (MSTG) is a comprehensive manual for mobile app security development, testing and reverse engineering.
No. You're publishing a service with a public interface and your app will presumably only communicate via this REST API. Anything that your app can send, anyone else can send also. This means that the only way to secure access would be to authenticate in some way, i.e. keep a secret. However, you are also publishing your apps. This means that any secret in your app is essentially being given out also. You can't have it both ways; you can't expect to both give out your secret and keep it secret.
Though this is an old post, I thought I should share the updates from Google in this regard.
You can actually ensure that your Android application is calling the API using the SafetyNet mobile attestation APIs. This adds a little overhead on the network calls and prevents your application from running in a rooted device.
I found nothing similar like SafetyNet for iOS. Hence in my case, I checked the device configuration first in my login API and took different measures for Android and iOS. In case of iOS, I decided to keep a shared secret key between the server and the application. As the iOS applications are a little bit difficult to reversed engineered, I think this extra key checking adds some protection.
Of course, in both cases, you need to communicate over HTTPS.
As the other answers and comments imply, you cant truly restrict API access to only your app but you can take different measures to reduce the attempts. I believe the best solution is to make requests to your API (from native code of course) with a custom header like "App-Version-Key" (this key will be decided at compile time) and make your server check for this key to decide if it should accept or reject. Also when using this method you SHOULD use HTTPS/SSL as this will reduce the risk of people seeing your key by viewing the request on the network.
Regarding Cordova/Phonegap apps, I will be creating a plugin to do the above mentioned method. I will update this comment when its complete.
there is nothing much you can do. cause when you let some one in they can call your APIs. the most you can do is as below:
since you want only and only your application (with a specific package name and signature) calls your APIs, you can get the signature key of your apk pragmatically and send is to sever in every API call and if thats ok you response to the request. (or you can have a token API that your app calls it every beginning of the app and then use that token for other APIs - though token must be invalidated after some hours of not working with)
then you need to proguard your code so no one sees what you are sending and how you encrypt them. if you do a good encrypt decompiling will be so hard to do.
even signature of apk can be mocked in some hard ways but its the best you can do.
Someone have looked at Firebase App Check ?
https://firebase.google.com/docs/app-check
Is there any way to restrict post requests to my REST API only to requests coming from my own mobile app binary?
I'm not sure if there is an absolute solution.
But, you can reduce unwanted requests.
Use an App Check:
The "Firebase App Check" can be used cross-platform (https://firebase.google.com/docs/app-check) - credit to #Xande-Rasta-Moura
iOS: https://developer.apple.com/documentation/devicecheck
Android: https://android-developers.googleblog.com/2013/01/verifying-back-end-calls-from-android.html
Use BasicAuth (for API requests)
Allow a user-agent header for mobile devices only (for API requests)
Use a robots.txt file to reduce bots
User-agent: *
Disallow: /
I have an android application. The application reads data from my server and displays them to the user.
Now, the question is: How to prevent someone from making a bogus app and asking my server to send data to this app?
This wastes both my bandwidth and makes use of my content while allowing people to create competitive apps using my data.
As you know, trying to prevent reverse engineering is like trying to stop piracy: impossible. Android reverse engineering especially it's like stealing candy from a baby.
Use API Tokens. Possible solutions:
HTTP Basic Auth example (only if you are using https)
Query Paramter (like https://example.com/resource?token=3786428762) (also only over https)
HMAC - sophisticated and more complex to implement, requires substainsial redesign of the backend communication, but the most secure
But mind you, either way you need to somehow hardcode a key/salt/hash/password in your app which can be reversed engineered one way or the other. There is no real (practical) possibility in Android to avoid rogue clients from accessing your backend (especially in rooted devices).
I would recommend HTTP Basic Auth since it's the best tradeoff in effort, usability and security (It's also used by the majority of public apis) It's very easy to implement since you only need to send a hardcoded http header, it's supported by practically every http server and it does not change your API and pollute it with query parameter and it's also reasonably secure if used over https.
Make the server require an API key and obfuscate the key in your code, see this answer: Best Practice for storing private API keys in Android
If you use http server, you can use http auth basic
Basic access auth
You could use something like reCAPTCHA to verify that the client is not a bot.
I came across a few tutorials online explaining how to connect to MySQL from an Android app, but they are a bit surface.
If I just write SQL and send/receive it in a POST, it seems problematic for a few reasons:
1) Hardcoding SQL with obvious issues there
2) Security concerns about sending sql - is that safe to send that request? or should it only be done via SSL?
3) To connect to the db, in order to insert things, I need to have the db connection info inside the app - is that safe? Can the code be read by someone hacking the device and the apps?
What is the best way to go about connecting and using a remote db from an Android app?
Thanks!!
Wrap everything in an API and manage authentication either with encryption with public/private keys or with a token-based system. You should never, ever, ever accept raw SQL in any way, shape or form from any device or site. Most often if you need live, remote data to run you should reconsider your application workflow and work off slightly stale data or provide the information in the background due to the possible spotty connections. Hitting even an API can be a costly endeavor so it shouldn't be something that has to occur frequently.
To incorporate some of the ideas above you could a couple things. For the public/private key read up on http://en.wikipedia.org/wiki/Public-key_cryptography. The basic concept is you store the public key on the device then negotiate a private key after the installation of the application that is also stored on the device (although not coded into the application). This key is the one you have to protect so it should be negotiated on installation and stored with the lifecycle of the application. You could contact an API with a unique hash of the device (say the device ID) and a password that the user could set. In that way if the data is wiped, since the password is stored on the server you can validate that a request to generate a new key is valid for that device ID and also protect against attackers trying to disrupt everyone's keys.
Obviously this is still susceptible to someone intercepting the initial request but if you are using HTTPS (which you should) then it should mitigate most of these issues.
You have to make sure an attacker just cant send in random device ID requests to generate new keys as it would disrupt the actual user's device of that hash, which is why the password set is important. Of course they could also do this against device IDs not currently registered but you could easily implement throttling and blacklisting against the initial API.
There are many things you can do but depending on your sensitive data it may be overkill. You'll have to make that judgement call and figure out who you are trying to protect your data from.
Use a webservice through which to communicate with the database. End User clients generally do not communicate with the database over the internet. Multitier_architecture
I'm about to start the design of an application for Android (and possibly later on iPhone, if I ever get around learning it). In this application I will need to send and retrieve various information to a backend (that me myself also will need to design and code). The information will most likely be in json format.
How would I go about making this data as safely transmitted as possible? Is https the only anser to this? Or are there any other smart solutions to this?
TLS (including HTTPS), where you validate the certificates from the client and the server is the safest mechanism, and doesn't require you to reinvent authentication in some flawed way.