Integrating iPhone Application with Shibboleth

Question

Has anyone integrated an iPhone application with a Shibboleth Identity Provider? Googling did not come up with anything so I am asking the gurus directly.

If it has not been previously dones, is it feasible to do so?

Answer 1

The answer to both is "Yes."

I'm a Java guy, so being asked two weeks ago to:

• Learn Objective-C
• Write an native iPhone App
• Authenticated programmatically with Shibboleth
• Download an display Shibboleth protected datafile

...Was a little daunting. Compound that with the absence of any forum posts to help out has prompted me to share my experience.

Here's an overview followed by some hopefully very helpful sample code. Please vote for my answer if this helps! It worth a few weeks of my time :)

For an application on the iPhone to download Shibbolized resources, the following needs to happen:

1. Use the URL API's in Cocoa to submit the HTTP request for the resource in question.
2. Implement a delegate class for the request to:
3. Respond to the SP re-direct to the IdP (automatic courtesy of Cocoa)
4. Respond to server certificate trust challenges
5. Respond to user credential challenges
6. Respond to errors (if needed)
7. Receive IdP's "binding template" for the authenticated user, an HTML form which re-directs the user back to the SP with two parameters
8. Programmatically HTTP POST the two parameters from the IdP back to the SP.
9. Cookies are automatically stored and forwards courtesy of Cocoa again
10. Implement a second URL Request delegate to receive the originally request data.

Here are some useful references from Apple and Shibboleth:

• http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
• https://spaces.internet2.edu/display/SHIB2/IdPSPLocalTestInstall

And hopefully I can include all the source for a quick demonstration.

ApplicationDelegate.h
----------
#import <UIKit/UIKit.h>
#import "ConsoleViewController.h"

/*
 The application delegate will hold references to the application's UIWindow and a ConsoleViewController.
 The console does all of the interesting Shibboleth activities.
*/
@interface ApplicationDelegate : NSObject <UIApplicationDelegate> {

 UIWindow *window;
 ConsoleViewController *consoleViewController;
}


@end

ApplicationDelegate.m
----------
#import "ApplicationDelegate.h"
#import "ConsoleViewController.h"

/*
 The implementation for the ApplicationDelegate initializes the console view controller and assembles everything.
 The console does all of the interesting Shibboleth activities.
 */
@implementation ApplicationDelegate


- (void)applicationDidFinishLaunching:(UIApplication *)application {    

 // Initialize the console.
 consoleViewController = [[ConsoleViewController alloc] init];

 window = [[UIWindow alloc] initWithFrame:[[UIScreen mainScreen] bounds]];
 [window setBackgroundColor:[UIColor lightGrayColor]];
 [window addSubview:[consoleViewController view]];

 [window makeKeyAndVisible];
}


- (void)dealloc {
    [window release];
 [ConsoleViewController release];
    [super dealloc];
}


@end

ConsoleController.h
----------
#import <Foundation/Foundation.h>
#import <UIKit/UIKit.h>

/*
 The ConsoleViewController's interface declares references to the network data used in negotiating with Shibboleth
 and a UITextView used to display the final result or errors.
 */
@interface ConsoleViewController : UIViewController {

 NSMutableData *responseData;
 NSString *responseString;
 UITextView *console;
}

@end

ConsoleController.m
----------
#import "ApplicationDelegate.h"
#import "ConsoleViewController.h"


/*
 This delegate is used when making the second HTTP request with Shibboleth.  If you're just getting here, start
 by reading the comments for ConsoleViewController below.

 All we need to do now is receive the response from the SP and display it.
 If all goes well, this should be the secured page originally requested.
 */
@interface AuthenticationRedirectDelegate : NSObject {

 NSMutableData *authResponseData;
 NSString *authResponseString;
 UITextView *console;
}

@property (nonatomic retain) UITextView *console;

@end


/*
 Refer to the comments for the interface above.
 */
@implementation AuthenticationRedirectDelegate

@synthesize console;

-(id)init {
 authResponseData = [[NSMutableData alloc] retain];
 return self;
}


- (void)connection:(NSURLConnection *)connection didReceiveResponse:(NSURLResponse *)response {
 [authResponseData setLength:0];
}


- (void)connection:(NSURLConnection *)connection didReceiveData:(NSData *)data {
 [authResponseData appendData:data];
}


- (void)connection:(NSURLConnection *)connection didFailWithError:(NSError *)error {
 [console setText:[error localizedDescription]]; 
}


/*
 Once the data is received from Shibboleth's SP, display it.
 */
- (void)connectionDidFinishLoading:(NSURLConnection *)connection {  

 authResponseString = [[NSString alloc] initWithData:authResponseData encoding:NSUTF8StringEncoding]; 
 [console setText:authResponseString]; 
 [connection release];
}


@end


/*
 The implementation of the ConsoleViewController, and AuthenticationRedirectDelegate above, contain the real logic of
 this Shibboleth exercise.  The ConsoleViewController performs the following:
 1. Prepare the initial HTTP request to a Shibboleth protected resource.
 2. Act as the delegate whilst Cocoa's URL Loading API receives the HTTP Response.
 NOTE: We instruct Cocoa in advance to take care of the SP redirecting to the IdP, accepting the server certificate,
 and submitting the user credentials
 3. Once the HTTP Response is finished loading, parse the <form action, RelayState and SAMLResponse from the IdP's
 response
 4. Call a utility method to prepare a second HTTP POST Request to the <form action/SP with the IdP's parameters
 NOTE: We do not need to transfer over any of Shibboleth's cookies, since Cocoa is doing this automatically
 5. Use a new instance of AuthenticationRedirectDelegate to receive the POST's response, which should be the secured
 page originally requested.
 6. Display the final content in the UITextView known as console.
 */
@implementation ConsoleViewController


/*
 A handy utility method for extracting a substring marked by two provided token strings.
 Used in parsing the HTML form returned by the IdP after the first HTTP Request.
 */
+(id)substringFromString:(NSString *)source BetweenOpenToken:(NSString *)openToken AndCloseToken:(NSString *)closeToken {

 NSUInteger l = [source length];
 NSUInteger openTokenLen = [openToken length];

 NSUInteger openTokenLoc = ([source rangeOfString:openToken]).location;
 NSUInteger valueLoc = openTokenLoc + openTokenLen;
 NSRange searchRange = NSMakeRange(valueLoc, l - valueLoc);
 NSUInteger closeTokenLoc = ([source rangeOfString:closeToken options:NSCaseInsensitiveSearch range:searchRange]).location;
 searchRange = NSMakeRange(valueLoc, closeTokenLoc - valueLoc);
 NSString *result = [source substringWithRange:searchRange];

 return result;
}


/*
 This function takes the three properties returned by the IdP after the first HTTP request and 
 HTTP POSTs them to the SP as specified by the IdP in the "url" parameter.
 */
-(void)authReturnTo:(NSURL *)url WithRelay:(NSString *)relayState AndSAML:(NSString *)samlResponse {

 // Here we assemble the HTTP POST body as usual.
 NSString *preBody = [[NSString alloc] initWithString:@"RelayState="];
 preBody = [preBody stringByAppendingString:relayState];
 preBody = [preBody stringByAppendingString:@"&"];
 preBody = [preBody stringByAppendingString:@"SAMLResponse="];
 preBody = [preBody stringByAppendingString:samlResponse];

 /* The SAMLResponse parameter contains characters (+) that the SP expects to be URL encoded.
  Here we simply manually URL encode those characters.  You may wish to harden this with proper
  URL encoding for production use.
  */
 NSString *httpBody = [preBody stringByReplacingOccurrencesOfString:@"+" withString:@"%2B"];
 NSData *httpBodyData = [httpBody dataUsingEncoding:NSUTF8StringEncoding];

 NSString *httpContentLength = [NSString stringWithFormat:@"%d", [httpBodyData length]];

 NSMutableURLRequest *request = [NSMutableURLRequest requestWithURL:url
              cachePolicy:NSURLRequestReloadIgnoringCacheData
              timeoutInterval:12.0];
 [request setHTTPMethod:@"POST"];
 [request setValue:httpContentLength forHTTPHeaderField:@"Content-Length"];
 [request setValue:@"application/x-www-form-urlencoded" forHTTPHeaderField:@"Content-Type"];

 [request setHTTPBody:httpBodyData];

 // Submit the HTTP POST using the second delegate class to receive the response
 AuthenticationRedirectDelegate *delegate = [[AuthenticationRedirectDelegate alloc] init];
 delegate.console=console;
 [[NSURLConnection alloc] initWithRequest:request delegate:delegate];
}


/*
 When this UIViewController finishes loading, automatically prepare and send a request to the Shibboleth SP Web Server
 for a secured resource.
 */
- (void)viewDidLoad {
 [super viewDidLoad];

 console = [[UITextView alloc] initWithFrame:[[UIScreen mainScreen] bounds]];
 [[self view] addSubview:console];

 responseData = [[NSMutableData data] retain];

 // TODO: Enter your own URL for a Shibboleth secured resource.
 NSURL *url = [NSURL URLWithString:@"<URL>"];

 NSURLRequest *request = [NSURLRequest requestWithURL:url
       cachePolicy:NSURLRequestUseProtocolCachePolicy
       timeoutInterval:12.0];

 [[NSURLConnection alloc] initWithRequest:request delegate:self];

 /* Control flows to the delegate methods below */
}


/*
 Refer to Apple's docs on the URL Loading System for details.
 http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
 */
- (void)connection:(NSURLConnection *)connection didReceiveResponse:(NSURLResponse *)response {
  [responseData setLength:0];
}


/*
 Refer to Apple's docs on the URL Loading System for details.
 http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
 */
- (void)connection:(NSURLConnection *)connection didReceiveData:(NSData *)data {
 [responseData appendData:data];
}

/*
 This implementation in the delegate let's Cocoa trust my SP Web Server's self-signed certificate.
 TODO: You will want to harden this for production use.

 Refer to Apple's docs on the URL Loading System for details.
 http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
 */
- (BOOL)connection:(NSURLConnection *)connection canAuthenticateAgainstProtectionSpace:(NSURLProtectionSpace *)protectionSpace {
 return [protectionSpace.authenticationMethod isEqualToString:NSURLAuthenticationMethodServerTrust] || [protectionSpace.authenticationMethod isEqualToString:NSURLAuthenticationMethodHTTPBasic];
}


/*
 This implementation for the delegate does two things:
 1. Respond to challenges for my server's self-signed certificate
 2. Respond to the IdP's challenge for the username and password.
 TODO: Enter your own username and password here.
 Refer to Apple's docs on the URL Loading System for details.
 http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
 */
- (void)connection:(NSURLConnection *)connection didReceiveAuthenticationChallenge:(NSURLAuthenticationChallenge *)challenge {
 // TODO: Enter the correct username and password below.
 /*
  WARNING: Using an incorrect user name and password will result in your application being re-challenged
  by the IdP.  Cocoa will return to this function in a never-ending loop.  This can result in the message
  "NSPosixErrorDomain Too many open files".  You'll need to perform additional coding to handle this.
  */
 if ([challenge.protectionSpace.authenticationMethod isEqualToString:NSURLAuthenticationMethodServerTrust])
  [challenge.sender useCredential:[NSURLCredential credentialForTrust:challenge.protectionSpace.serverTrust] forAuthenticationChallenge:challenge];
 else if ([challenge.protectionSpace.authenticationMethod isEqualToString:NSURLAuthenticationMethodHTTPBasic])
  [challenge.sender useCredential:[NSURLCredential credentialWithUser:@"<USERNAME>" password:@"<PASSWORD>" persistence:NSURLCredentialPersistenceNone] forAuthenticationChallenge:challenge];
 else
  [challenge.sender continueWithoutCredentialForAuthenticationChallenge:challenge];
}


/*
 You may wish to add more code here to log errors.

 Refer to Apple's docs on the URL Loading System for details.
 http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
 */
- (void)connection:(NSURLConnection *)connection didFailWithError:(NSError *)error {
 [console setText:[error localizedDescription]];
}


/*
 Once Cocoa has received a (hopefully) authenticated response from the IdP, we parse out the relevant pieces and prepare to
 HTTP POST them back to the SP as specified by the IdP in the <form action attribute.

 Refer to Apple's docs on the URL Loading System for details.
 http://developer.apple.com/mac/library/DOCUMENTATION/Cocoa/Conceptual/URLLoadingSystem/URLLoadingSystem.html
 */
- (void)connectionDidFinishLoading:(NSURLConnection *)connection {  
 [connection release];
 responseString = [[NSString alloc] initWithData:responseData encoding:NSUTF8StringEncoding];

 if([responseString rangeOfString:@"SAMLResponse"].length < 1)
 {
  [console setText:[@"Unexpected response:\n]n" stringByAppendingString:responseString]];
  return;
 }

 NSString *relayState = [ConsoleViewController substringFromString:responseString BetweenOpenToken:@"RelayState\" value=\"" AndCloseToken:@"\"/>"];
 NSString *SAMLResponse = [ConsoleViewController substringFromString:responseString BetweenOpenToken:@"SAMLResponse\" value=\"" AndCloseToken:@"\"/>"];
 NSString *formAction = [ConsoleViewController substringFromString:responseString BetweenOpenToken:@"<form action=\"" AndCloseToken:@"\""];
 NSURL *formActionURL = [[NSURL alloc] initWithString:formAction];
 [self authReturnTo:formActionURL WithRelay:relayState AndSAML:SAMLResponse];
}


@end

Answer 2

I managed to do just that, but it took me some time to understand every step of the process and to reproduce it perfectly. If I have time, I might write a detailed tutorial, because I didn't find any help for a lot of problems I got. The thing is, it also depends on the website you want to connect to, so yours maybe does not follow the same path as mine (its process is the same as the one described here).

To see every request fired by my browser (Chrome) to connect, I used the developer tools Network panel, with 'Preserve log' checked.

A few hints :

• 1°) You need to get "_idp_authn_lc_key..." cookie. There's a request that set it for you, find it.

• 2°) You need the login ticket (LT-...). You'll probably find it in the body of the page that asks you your credentials.

• 3°) You need a service ticket (ST-...). Again, you will find it in the page that the previous request returned.

• 4°) You need SAMLResponse. Again, you will find it in the page that the previous request returned.

• 5°) Finally, you can log in by sending back SAMLResponse to the service provider. You should take care of the encoding, here. I had a few '+' or '=' that I needed to change to '%2B' and '%3D'. You will be given a "_idp_session" cookie, that will allow you to reconnect without all this mess.

If someone tries to do the same, I'd be happy to help ! Just send me a message.

Answer 3

I successfully implemented using EC's solution as a starting point. The only other thing I'd add is that you really have to pay attention to keeping only one request going at a time. In our implementation the authentication process would get confused between multiple asynchronous requests running concurrently. Using NSOperation to throttle the queue seemed to work great for me.