I need to customise fiddler to intercept the response to specific website to encrypt it.
However, I do not want it to be desktop application. Can I make it as web based??
I need it to be portable, whenever user access this website he does not need to install this extension on each machine he use it to encrypt the response before send it.
The web security model is such that you can't have one website (A) that gets access to another website's data (B), unless the target site (B) participates explicitly in the process and allows access by (A). Using a browser extension or Fiddler is a way to circumvent the web security model.
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I have tried Google with queries similar to the title of this question, but haven't found anything useful.
Background: I am building a web app and would like to add a user authentication level to it. I cannot imagine anything worse than building a user authentication system from the ground up, so I want a quick solution.
I'm looking for open source software I can host on my server that provides an auth layer I can connect to, with multiple user accounts
Criteria:
I want to host the software on my own server
Provide a log in screen that works with multiple sign in strategies - twitter, facebook, vanilla email, etc.
Persists users to a database (preferably postgres) and persists session data
Preferably lets me store a minimal amount of data per user, like key value store
Has a client-side (Javascript) API, like Facebook's JS, so I can use this auth service on multiple sites. Namely, I want to use it on localhost or my own file system (when allowing file cookies). Client side JS API exposes methods like log in / log out
Has a server side API (such as exposes local RESTful endpoints) so that when I do build out my server side app for other data storage outside of the user, my app can query the auth service for log in status.
I want to run this stack completely independently of my own app - in fact I want to run this auth service and purely communicate to it from my local dev environment without building any server side app of my own.
I have used Firebase and they do many of the things that I want, including log in strategies and the client / server side APIs, but I want to be able to host my own version of this.
I can't imagine anyone takes pleasure out of building user authentication of any kind, so I'm surprised I haven't found anything in research.
I also know this is an open-ended question, but as far as I can tell I haven't found anything satisfying my requirements.
I like Devise (https://github.com/plataformatec/devise), which is for Rails. It has an active community with a boatloads of plugins available that can fulfill many of your requirements.
I didn't see a language specified; most languages and frameworks have their own implementations. Can you provide more information?
Example: I use the Flask framework on python. In addition, I use the Authomatic library which provides Oauth access for twitter, google, facebook, etc.
What I was looking for is something called a Single Sign On solution. According to this list there is nothing currently that meets my criteria.
Instead I have chosen to just run a local webserver and implement a regular auth flow.
I'm building an app with Phonegap. It simply reads xml feeds to display latest articles uploaded by a school for parents to read.
There will be an option where each user of the app can decide whether they want to receive Push Notifications or not. I have a simple database table where the device's registration i.d. from Google Cloud Console is stored. When the user clicks "yes", the registration i.d. is generated and stored on the server. If they then click "no", it's deleted. I want to secure these call to the server with basic HTTP authentification.
Any documentation I have seen on basic authentification describes the sending of username and passwords. But with my application, there is no username or password as the users do not need to sign up. What do I send to authenticate the client? Would there be a key hard-coded on the client side and sent with each request? Couln't this be easily exposed by unpacking the .apk?
I object to the premise of the question. I actually see this as less a security issue and more a preferences issue. Understanding the distinction makes the development of your feature much easier.
Simply modify your application to allow the user to configure what he or she wants to see in the settings and then store the preferences wherever you want on the client (like local storage). The server can then push as before, but the app should simply refuse to render those pushes that the user doesn't want to see.
If you want to simply disseminate non-sensitive content to the users who want to see it, this is a preferences issue and/or a publish/subscribe issue. But it is not a security issue.
Since you have access to server side, you have the control of the whole process. So, in order to handle that, you may think about something like session cookies that a web server creates in case of normal authentication.
I have done something similar and what I've done is to generate a kind of token server side that is stored in the cookies of the device or the localStorage.
So the process flow should be something like this :
Generate a token and store it on the device (cookies or local storage).
For each request, send this value in a http header
From server side, you may identify the user from that token.
For example : you maintain a table that identifies device/token.
That's it
In addition to what the other answers said you can pass a custom useragent string as part of the requests, and validate it matches what you expect. It's not a sure way to 'secure' requests, but along with a (simple) token system and HTTPS this could be enough for your needs.
I have a chrome app that will be distributed as a normal file and not use the app store. I would like a way of updating it, preferably using the auto-update facility. However, I do not want to use an unsecured URL for the updates.
Is it possible to use any kind of authentication for updates? What approaches could I use to secure updates that would not be accessible to unauthorized users?
You could customize each download of your app to have a different update URL. This could include credentials, or a token, that you gather during the conversion process leading to the initial download. In the event you find that a user has shared his unique URL, you could disable future updates from that URL, or update the app to a nonfunctional version.
As far as other approaches go, the update URL isn't parameterizable (other than certain predefined parameters), so you can't customize it after installation. I am fairly sure that the request doesn't include the update origin's cookies. So an approach like signing in to the origin through a web page and setting a cookie there won't work.
Want to access data from external service for a facebook application. Not getting a solution on how to do the same.
Facebook apps are iframes inside Facebook. If your application has it's own server-side code, you can access that external service from the server and send the results to the client.
If you don't have your own server-side code, relying on Facebook objects for persistence, than you can access the remote service from the client via JavaScript - but there is a "but". Browsers usually only allow JavaScript to send requests to the domain where the page came from, and obviously your app is not served from the domain of the external service(otherwise it wouldn't be "external"). That means your users will have to set the security options in their browsers to allow access to remote domains - which means you'll have to supply instructions on how to do that, and we all know how good users are at following instructions... Also, having to change security options might scare away some users.
So - if possible, try to do it from your server-side.
We intend to develop rest based api. I explored the topic but it seems, you can secure api when your client is an app (So there are many ways, public key - private key etc). What about websites / mobile website, if we are accessing rest based api in website which do not use any login for accessing contents ( login would be optional ) then how could we restrict other people from accessing rest based api ?
Does it make sense using Oauth2.0 ? I don't have clear idea of that.
More clear question could be ,How can we secure get or post request exposed over web for the website which doesn't use any login ?
If it's simple get request or post request , which will return you json data on specific input, now i have mobile website , who will access those data using get request or post request to fetch data. Well, some else can also access it , problem is i am not using Login, user can access data directly. But how can we restrict other people from accessing that data.
What do you think is the difference between securing a website that is not using REST vs one that is using REST API?
OAuth provides authorisation capabilities for your site, in a REST architecture this means a user of the mobile application will have to provide their credentials before being allowed to access the resource. The application can then decide on if that user has access to the requested resource. However you've said your website doesn't need use authorisation.
You can use certificates however good luck managing the certificate for each client. My take on it is for your explanation you don't need to secure your website because you will never be able to manage a trust relationship between the client and the server. There are some options though:
You build your own client application that you ship out to people which can verify itself with the server using a packaged certificate with the client. E.g. iOS has this kind of feature if you build for that device.
You provide a capability to download a certificate that is 'installed' in the browser and used when communicating to your REST API
Use something like a handshaking protocol so when a client wants to make the first request it says; 'hi I'm a client can we chat?' And the server responds with 'yes for the next X minutes we can however make sure you send me this key everytime you tell me something YYYYYY' (you can use something like SecureUDID or equivalent for other devices than iOS).
There are probably others but you get the basic idea. Again in my opinion if your resource doesn't need authorisation then you don't need to secure that REST API. Can I ask what kind of data are you exposing via this REST API or functionality your providing? That might help provide a better answer.
You want authorization: only some agents (mobile clients) and/or users should be allowed to access those APIs.
To solve that problem, you need identification: a way for the server to tell who is who (or what), so the right decision can be made.
There are many different way to provide some form of identification, depending how much you care about security.
The simplest is a user agent string, specific to your mobile clients. But it can be faked easily. Slightly harder to fake are client based 'secrets' - embed some kind of secret or key in your mobile client code. You can make it really complicated and secret, but as ramsinb pointed out, you can't get security this way as it would require you to be able to guarantee that the secret you're shipping with the client (wether it's code, algorithm or any other fancy construct) can't be compromised or reverse engineered. Not happening when you don't control the client.
From there, 3 choices:
Security isn't really required, don't bother
Security isn't really required, but you still want to limit access to your API to either legit users/agents or people ready to invest some time hacking your protection - go with a specific user agent or a client embedded secret - don't invest much into it as it won't block people who really want access to get it anyway
Security IS required - and then I don't think there is a way around authentication, wether it's login/password, user specific (device specific?) keys, OpenID, etc... No matter what, you'll have to add to the user burden to some extent, although you can limit that burden by allowing authentication to persist (cookies, storage....)