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How To Have Two Domain_6 Accounts On Iphone

An Android App Link is a special type of deep link that allows your website URLs to immediately open the corresponding content in your Android app, without requiring the user to select the app. Android App Links use the Digital Asset Links API to establish trust that your app has been approved by the website to automatically open links for that domain. If the system successfully verifies that you own the URLs, the system automatically routes those URL intents to your app.

To verify that you own both your app and the website URLs, complete the following steps:

  1. Add intent filters that contain the autoVerify attribute. This attribute signals to the system that it should verify whether your app belongs to the URL domains used in your intent filters.

  2. Declare the association between your website and your intent filters by hosting a Digital Asset Links JSON file at the following location:

    https://domain.name/.well-known/assetlinks.json

You can find related information in the following resources:

  • Supporting URLs and App Indexing in Android Studio
  • Creating a Statement List

Add intent filters for app links verification

To enable link handling verification for your app, add intent filters that match the following format:

          <!-- Make sure you explicitly set android:autoVerify to "true". --> <intent-filter android:autoVerify="true">     <action android:name="android.intent.action.VIEW" />     <category android:name="android.intent.category.DEFAULT" />     <category android:name="android.intent.category.BROWSABLE" />      <!-- If a user clicks on a shared link that uses the "http" scheme, your          app should be able to delegate that traffic to "https". -->     <data android:scheme="http" />     <data android:scheme="https" />      <!-- Include one or more domains that should be verified. -->     <data android:host="..." /> </intent-filter>                  

Although it's sufficient to include autoVerify in only one <intent-filter> declaration for each host, even if that host is used across other unmarked declarations, it's recommended that you add autoVerify to each <intent-filter> element for consistency. This also ensures that, after your remove or refactor elements in your manifest file, your app remains associated with all the domains that you still define.

The domain verification process requires an internet connection and could take some time to complete. To help improve the efficiency of the process, the system verifies a domain for an app that targets Android 12 or higher only if that domain is inside an <intent-filter> element that contains the exact format specified in the preceding code snippet.

Supporting app linking for multiple hosts

The system must be able to verify the host specified in the app's URL intent filters' data elements against the Digital Asset Links files hosted on the respective web domains in that intent filter. If the verification fails, the system then defaults to its standard behavior to resolve the intent, as described in Create Deep Links to App Content. However, the app can still be verified as a default handler for any of the URL patterns defined in the app's other intent filters.

Note: On Android 11 (API level 30) and lower, the system doesn't verify your app as a default handler unless it finds a matching Digital Asset Links file for all hosts that you define in the manifest.

For example, an app with the following intent filters would pass verification only for https://www.example.com if an assetlinks.json file were found at https://www.example.com/.well-known/assetlinks.json but not https://www.example.net/.well-known/assetlinks.json:

<application>    <activity android:name="MainActivity">     <intent-filter android:autoVerify="true">       <action android:name="android.intent.action.VIEW" />       <category android:name="android.intent.category.DEFAULT" />       <category android:name="android.intent.category.BROWSABLE" />          <data android:scheme="http" />       <data android:scheme="https" />       <data android:host="www.example.com" />          </intent-filter>   </activity>   <activity android:name="SecondActivity">     <intent-filter>       <action android:name="android.intent.action.VIEW" />       <category android:name="android.intent.category.DEFAULT" />       <category android:name="android.intent.category.BROWSABLE" />                      <data android:scheme="https" />      <data android:host="www.example.net" />          </intent-filter>   </activity>  </application>        

Note: All <data> elements in the same intent filter are merged together to account for all variations of their combined attributes. For example, the first intent filter above includes a <data> element that only declares the HTTPS scheme. But it is combined with the other <data> element so that the intent filter supports both http://www.example.com and https://www.example.com. As such, you must create separate intent filters when you want to define specific combinations of URI schemes and domains.

Supporting app linking for multiple subdomains

The Digital Asset Links protocol treats subdomains in your intent filters as unique, separate hosts. So if your intent filter lists multiple hosts with different subdomains, you must publish a valid assetlinks.json on each domain. For example, the following intent filter includes www.example.com and mobile.example.com as accepted intent URL hosts. So a valid assetlinks.json must be published at both https://www.example.com/.well-known/assetlinks.json and https://mobile.example.com/.well-known/assetlinks.json.

<application>   <activity android:name="MainActivity">     <intent-filter android:autoVerify="true">       <action android:name="android.intent.action.VIEW" />       <category android:name="android.intent.category.DEFAULT" />       <category android:name="android.intent.category.BROWSABLE" />          <data android:scheme="https" />       <data android:scheme="https" />       <data android:host="www.example.com" />       <data android:host="mobile.example.com" />          </intent-filter>   </activity> </application>        

Alternatively, if you declare your hostname with a wildcard (such as *.example.com), you must publish your assetlinks.json file at the root hostname (example.com). For example, an app with the following intent filter will pass verification for any sub-name of example.com (such as foo.example.com) as long as the assetlinks.json file is published at https://example.com/.well-known/assetlinks.json:

<application>   <activity android:name="MainActivity">     <intent-filter android:autoVerify="true">       <action android:name="android.intent.action.VIEW" />       <category android:name="android.intent.category.DEFAULT" />       <category android:name="android.intent.category.BROWSABLE" />          <data android:scheme="https" />       <data android:host="*.example.com" />          </intent-filter>   </activity> </application>        

Check for multiple apps associated with the same domain

If you publish multiple apps that are each associated with the same domain, they can each be successfully verified. However, if the apps can resolve the exact same domain host and path, as might be the case with lite and full versions of an app, only the app that was installed most recently can resolve web intents for that domain.

In a case like this, check for possible conflicting apps on the user's device, provided that you have the necessary package visibility. Then, in your app, show a custom chooser dialog that contains the results from calling queryIntentActivities(). The user can select their preferred app from the list of matching apps that appear in the dialog.

Declare website associations

A Digital Asset Links JSON file must be published on your website to indicate the Android apps that are associated with the website and verify the app's URL intents. The JSON file uses the following fields to identify associated apps:

  • package_name: The application ID declared in the app's build.gradle file.
  • sha256_cert_fingerprints: The SHA256 fingerprints of your app's signing certificate. You can use the following command to generate the fingerprint via the Java keytool:
    $ keytool -list -v -keystore my-release-key.keystore            
    This field supports multiple fingerprints, which can be used to support different versions of your app, such as debug and production builds.

The following example assetlinks.json file grants link-opening rights to a com.example Android app:

[{   "relation": ["delegate_permission/common.handle_all_urls"],   "target": {     "namespace": "android_app",     "package_name": "com.example",     "sha256_cert_fingerprints":     ["14:6D:E9:83:C5:73:06:50:D8:EE:B9:95:2F:34:FC:64:16:A0:83:42:E6:1D:BE:A8:8A:04:96:B2:3F:CF:44:E5"]   } }]        

Associating a website with multiple apps

A website can declare associations with multiple apps within the same assetlinks.json file. The following file listing shows an example of a statement file that declares association with two apps, separately, and resides at https://www.example.com/.well-known/assetlinks.json:

[{   "relation": ["delegate_permission/common.handle_all_urls"],   "target": {     "namespace": "android_app",     "package_name":          "com.example.puppies.app",     "sha256_cert_fingerprints":     ["14:6D:E9:83:C5:73:06:50:D8:EE:B9:95:2F:34:FC:64:16:A0:83:42:E6:1D:BE:A8:8A:04:96:B2:3F:CF:44:E5"]   }   },   {   "relation": ["delegate_permission/common.handle_all_urls"],   "target": {     "namespace": "android_app",     "package_name": "com.example.monkeys.app",     "sha256_cert_fingerprints":     ["14:6D:E9:83:C5:73:06:50:D8:EE:B9:95:2F:34:FC:64:16:A0:83:42:E6:1D:BE:A8:8A:04:96:B2:3F:CF:44:E5"]   } }]        

Different apps may handle links for different resources under the same web host. For example, app1 may declare an intent filter for https://example.com/articles, and app2 may declare an intent filter for https://example.com/videos.

Note: Multiple apps associated with a domain may be signed with the same or different certificates.

Associating multiple websites with a single app

Multiple websites can declare associations with the same app in their respective assetlinks.json files. The following file listings show an example of how to declare the association of example.com and example.net with app1. The first listing shows the association of example.com with app1:

https://www.example.com/.well-known/assetlinks.json

[{   "relation": ["delegate_permission/common.handle_all_urls"],   "target": {     "namespace": "android_app",     "package_name": "com.mycompany.app1",     "sha256_cert_fingerprints":     ["14:6D:E9:83:C5:73:06:50:D8:EE:B9:95:2F:34:FC:64:16:A0:83:42:E6:1D:BE:A8:8A:04:96:B2:3F:CF:44:E5"]   } }]        

The next listing shows the association of example.net with app1. Only the location where these files are hosted is different (.com and .net):

https://www.example.net/.well-known/assetlinks.json

[{   "relation": ["delegate_permission/common.handle_all_urls"],   "target": {     "namespace": "android_app",     "package_name": "com.mycompany.app1",     "sha256_cert_fingerprints":     ["14:6D:E9:83:C5:73:06:50:D8:EE:B9:95:2F:34:FC:64:16:A0:83:42:E6:1D:BE:A8:8A:04:96:B2:3F:CF:44:E5"]   } }]        

Publishing the JSON verification file

You must publish your JSON verification file at the following location:

https://domain.name/.well-known/assetlinks.json

Be sure of the following:

  • The assetlinks.json file is served with content-type application/json.
  • The assetlinks.json file must be accessible over an HTTPS connection, regardless of whether your app's intent filters declare HTTPS as the data scheme.
  • The assetlinks.json file must be accessible without any redirects (no 301 or 302 redirects) and be accessible by bots (your robots.txt must allow crawling /.well-known/assetlinks.json).
  • If your app links support multiple host domains, then you must publish the assetlinks.json file on each domain. See Supporting app linking for multiple hosts.
  • Do not publish your app with dev/test URLs in the manifest file that may not be accessible to the public (such as any that are accessible only with a VPN). A work-around in such cases is to configure build variants to generate a different manifest file for dev builds.

Android App Links verification

When android:autoVerify="true" is present in at least one of your app's intent filters, installing your app on a device that runs Android 6.0 (API level 23) or higher causes the system to automatically verify the hosts associated with the URLs in your app's intent filters. On Android 12 and higher, you can also invoke the verification process manually to test the verification logic.

Auto verification

The system's auto-verification involves the following:

  1. The system inspects all intent filters that include:
    • Action: android.intent.action.VIEW
    • Categories: android.intent.category.BROWSABLE and android.intent.category.DEFAULT
    • Data scheme: http or https
  2. For each unique host name found in the above intent filters, Android queries the corresponding websites for the Digital Asset Links file at https://hostname/.well-known/assetlinks.json.

After you have confirmed the list of websites to associate with your app, and you have confirmed that the hosted JSON file is valid, install the app on your device. Wait at least 20 seconds for the asynchronous verification process to complete. Use the following command to check whether the system verified your app and set the correct link handling policies:

adb shell am start -a android.intent.action.VIEW \     -c android.intent.category.BROWSABLE \     -d "http://domain.name:optional_port"        

Manual verification

Starting in Android 12, you can manually invoke domain verification for an app that's installed on a device. You can perform this process regardless of whether your app targets Android 12.

Establish an internet connection

To perform domain verification, your test device must be connected to the internet.

Support the updated domain verification process

If your app targets Android 12 or higher, the system uses the updated domain verification process automatically.

Otherwise, you can manually enable the updated verification process. To do so, run the following command in a terminal window:

adb shell am compat enable 175408749          PACKAGE_NAME        

Reset the state of Android App Links on a device

Before you manually invoke domain verification on a device, you must reset the state of Android App Links on the test device. To do so, run the following command in a terminal window:

adb shell pm set-app-links --package          PACKAGE_NAME          0 all        

This command puts the device in the same state that it's in before the user chooses default apps for any domains.

Invoke the domain verification process

After you reset the state of Android App Links on a device, you can perform the verification itself. To do so, run the following command in a terminal window:

adb shell pm verify-app-links --re-verify          PACKAGE_NAME        

Review the verification results

After allowing some time for the verification agent to finish its requests, review the verification results. To do so, run the following command:

adb shell pm get-app-links          PACKAGE_NAME        

The output of this command is similar to the following:

com.example.pkg:     ID: 01234567-89ab-cdef-0123-456789abcdef     Signatures: [***]     Domain verification state:       example.com: verified       sub.example.com: legacy_failure       example.net: verified       example.org: 1026        

The domains that successfully pass verification have a domain verification state of verified. Any other state indicates that the domain verification couldn't be performed. In particular, a state of none indicates that the verification agent might not have completed the verification process yet.

The following list shows the possible return values that domain verification can return for a given domain:

none
Nothing has been recorded for this domain. Wait a few more minutes for the verification agent to finish the requests related to domain verification, then invoke the domain verification process again.
verified
The domain is successfully verified for the declaring app.
approved
The domain was force-approved, usually by executing a shell command.
denied
The domain was force-denied, usually by executing a shell command.
migrated
The system preserved the result of a previous process that used legacy domain verification.
restored
The domain was approved after the user performed a data restore. It's assumed that the domain was previously verified.
legacy_failure
The domain was rejected by a legacy verifier. The specific failure reason is unknown.
system_configured
The domain was approved automatically by the device configuration.
Error code of 1024 or greater

Custom error code that's specific to the device's verifier.

Double-check that you have established a network connection, and invoke the domain verification process again.

Request the user to associate your app with a domain

Another way for your app to get approved for a domain is to ask the user to associate your app with that domain.

Check whether your app is already approved for the domain

Before you prompt the user, check whether your app is the default handler for the domains that you define in your <intent-filter> elements. You can query the approval state using one of the following methods:

  • The DomainVerificationManager API (at runtime).
  • A command-line program (during testing).

DomainVerificationManager

The following code snippet demonstrates how to use the DomainVerificationManager API:

Kotlin

val context: Context = TODO("Your activity or fragment's Context") val manager = context.getSystemService(DomainVerificationManager::class.java) val userState = manager.getDomainVerificationUserState(context.packageName)  // Domains that have passed Android App Links verification. val verifiedDomains = userState?.hostToStateMap     ?.filterValues { it == DomainVerificationUserState.DOMAIN_STATE_VERIFIED }  // Domains that haven't passed Android App Links verification but that the user // has associated with an app. val selectedDomains = userState?.hostToStateMap     ?.filterValues { it == DomainVerificationUserState.DOMAIN_STATE_SELECTED }  // All other domains. val unapprovedDomains = userState?.hostToStateMap     ?.filterValues { it == DomainVerificationUserState.DOMAIN_STATE_NONE }            

Java

Context context = TODO("Your activity or fragment's Context"); DomainVerificationManager manager =         context.getSystemService(DomainVerificationManager.class); DomainVerificationUserState userState =         manager.getDomainVerificationUserState(context.getPackageName());  Map<String, Integer> hostToStateMap = userState.getHostToStateMap(); List<String> verifiedDomains = new ArrayList<>(); List<String> selectedDomains = new ArrayList<>(); List<String> unapprovedDomains = new ArrayList<>(); for (String key : hostToStateMap.keySet()) {     Integer stateValue = hostToStateMap.get(key);     if (stateValue == DomainVerificationUserState.DOMAIN_STATE_VERIFIED) {         // Domain has passed Android App Links verification.         verifiedDomains.add(key);     } else if (stateValue == DomainVerificationUserState.DOMAIN_STATE_SELECTED) {         // Domain hasn't passed Android App Links verification, but the user has         // associated it with an app.         selectedDomains.add(key);     } else {         // All other domains.         unapprovedDomains.add(key);     } }            

Command-line program

When testing your app during development, you can run the following command to query the verification state of the domains that your organization owns:

adb shell pm get-app-links --user cur          PACKAGE_NAME        

In the following example output, even though the app failed verification for the "example.org" domain, user 0 has manually approved the app in system settings, and no other package is verified for that domain.

com.example.pkg: ID: *** Signatures: [***] Domain verification state:   example.com: verified   example.net: verified   example.org: 1026 User 0:   Verification link handling allowed: true   Selection state:     Enabled:       example.org     Disabled:       example.com       example.net        

You can also use shell commands to simulate the process where the user selects which app is associated with a given domain. A full explanation of these commands is available from the output of adb shell pm.

Provide context for the request

Before you make this request for domain approval, provide some context for the user. For example, you might show them a splash screen, a dialog, or a similar UI element that explains to the user why your app should be the default handler for a particular domain.

Make the request

After the user understands what your app is asking them to do, make the request. To do so, invoke an intent that includes the ACTION_APP_OPEN_BY_DEFAULT_SETTINGS intent action, and a data string matching package:com.example.pkg for the target app, as shown in the following code snippet:

Kotlin

val context: Context = TODO("Your activity or fragment's Context") val intent = Intent(Settings.ACTION_APP_OPEN_BY_DEFAULT_SETTINGS,     Uri.parse("package:${context.packageName}")) context.startActivity(intent)            

Java

Context context = TODO("Your activity or fragment's Context"); Intent intent = new Intent(Settings.ACTION_APP_OPEN_BY_DEFAULT_SETTINGS,     Uri.parse("package: " + context.getPackageName())); context.startActivity(intent);            

When the intent is invoked, users see a settings screen called Open by default. This screen contains a radio button called Open supported links, as shown in figure 1.

When the user turns on Open supported links, a set of checkboxes appear under a section called Links to open in this app. From here, users can select the domains that they want to associate with your app. They can also select Add link to add domains, as shown in figure 2. When users later select any link within the domains that they add, the link opens in your app automatically.

When the radio button is enabled, a section near the bottom      includes checkboxes as well as a button called 'Add link'
Figure 1. System settings screen where users can choose which links open in your app by default.
Each checkbox represents a domain that you can add. The      dialog's buttons are 'Cancel' and 'Add.'
Figure 2. Dialog where users can choose additional domains to associate with your app.

Open domains in your app that your app cannot verify

Your app's main function might be to open links as a third party, without the ability to verify its handled domains. If this is the case, explain to users that, at that time when they select a web link, they cannot choose between a first-party app and your (third-party) app. Users need to manually associate the domains with your third-party app.

In addition, consider introducing a dialog or trampoline activity that allows the user to open the link in the first-party app if the user prefers to do so, acting as a proxy. Before setting up such a dialog or trampoline activity, set up your app so that it has package visibility into the first-party apps that match your app's web intent filter.

Test app links

When implementing the app linking feature, you should test the linking functionality to make sure the system can associate your app with your websites, and handle URL requests, as you expect.

To test an existing statement file, you can use the Statement List Generator and Tester tool.

Confirm the list of hosts to verify

When testing, you should confirm the list of associated hosts that the system should verify for your app. Make a list of all URLs whose corresponding intent filters include the following attributes and elements:

  • android:scheme attribute with a value of http or https
  • android:host attribute with a domain URL pattern
  • android.intent.action.VIEW action element
  • android.intent.category.BROWSABLE category element

Use this list to check that a Digital Asset Links JSON file is provided on each named host and subdomain.

Confirm the Digital Asset Links files

For each website, use the Digital Asset Links API to confirm that the Digital Asset Links JSON file is properly hosted and defined:

https://digitalassetlinks.googleapis.com/v1/statements:list?    source.web.site=https://domain.name:optional_port&    relation=delegate_permission/common.handle_all_urls        

As part of your testing process, you can check the current system settings for link handling. Use the following command to get a listing of existing link-handling policies for all apps on your connected device:

adb shell dumpsys package domain-preferred-apps        

Or the following does the same thing:

adb shell dumpsys package d        

Note: Make sure you wait at least 20 seconds after installation of your app to allow for the system to complete the verification process.

The command returns a listing of each user or profile defined on the device, preceded by a header in the following format:

App linkages for user 0:        

Following this header, the output uses the following format to list the link-handling settings for that user:

Package: com.android.vending Domains: play.google.com market.android.com Status: always : 200000002        

This listing indicates which apps are associated with which domains for that user:

  • Package - Identifies an app by its package name, as declared in its manifest.
  • Domains - Shows the full list of hosts whose web links this app handles, using blank spaces as delimiters.
  • Status - Shows the current link-handling setting for this app. An app that has passed verification, and whose manifest contains android:autoVerify="true", shows a status of always. The hexadecimal number after this status is related to the Android system's record of the user's app linkage preferences. This value does not indicate whether verification succeeded.

Note: If a user changes the app link settings for an app before verification is complete, you may see a false positive for a successful verification, even though verification has failed. This verification failure, however, does not matter if the user explicitly enabled the app to open supported links without asking. This is because user preferences take precedence over programmatic verification (or lack of it). As a result, the link goes directly to your app, without showing a dialog, just as if verification had succeeded.

Test example

For app link verification to succeed, the system must be able to verify your app with each of the websites that you specify in a given intent filter that meets the criteria for app links. The following example shows a manifest configuration with several app links defined:

<application>      <activity android:name="MainActivity">         <intent-filter android:autoVerify="true">             <action android:name="android.intent.action.VIEW" />             <category android:name="android.intent.category.DEFAULT" />             <category android:name="android.intent.category.BROWSABLE" />             <data android:scheme="https" />             <data android:scheme="https" />             <data android:host="www.example.com" />             <data android:host="mobile.example.com" />         </intent-filter>         <intent-filter>             <action android:name="android.intent.action.VIEW" />             <category android:name="android.intent.category.BROWSABLE" />             <data android:scheme="https" />             <data android:host="www.example2.com" />         </intent-filter>     </activity>      <activity android:name="SecondActivity">         <intent-filter>             <action android:name="android.intent.action.VIEW" />             <category android:name="android.intent.category.DEFAULT" />             <category android:name="android.intent.category.BROWSABLE" />             <data android:scheme="https" />             <data android:host="account.example.com" />         </intent-filter>     </activity>        <activity android:name="ThirdActivity">         <intent-filter>             <action android:name="android.intent.action.VIEW" />             <category android:name="android.intent.category.DEFAULT" />             <data android:scheme="https" />             <data android:host="map.example.com" />         </intent-filter>         <intent-filter>             <action android:name="android.intent.action.VIEW" />             <category android:name="android.intent.category.BROWSABLE" />             <data android:scheme="market" />             <data android:host="example.com" />         </intent-filter>       </activity>  </application>        

The list of hosts that the platform would attempt to verify from the above manifest is:

www.example.com mobile.example.com www.example2.com account.example.com        

The list of hosts that the platform would not attempt to verify from the above manifest is:

map.example.com (it does not have android.intent.category.BROWSABLE) market://example.com (it does not have either an "http" or "https" scheme)        

To learn more about statement lists, see Creating a Statement List.

Fix common implementation errors

If you can't verify your Android App Links, check for the following common errors. This section uses example.com as a placeholder domain name; when performing these checks, substitute example.com with your server's actual domain name.

Incorrect intent filter set up
Check to see whether you include a URL that your app doesn't own in an <intent-filter> element.
Incorrect server configuration

Check to your server's JSON configuration, and make sure the SHA value is correct.

Also, check that example.com. (with the trailing period) serves the same content as example.com.

Server-side redirects

The system doesn't verify any Android App Links for your app if you set up a redirect such as the following:

  • http://example.com to https://example.com
  • example.com to www.example.com

This behavior protects your app's security.

Server robustness

Check whether your server can connect to your client apps.

Non-verifiable links

For testing purposes, you might intentionally add non-verifiable links. Keep in mind that, on Android 11 and lower, these links cause the system to not verify all Android App Links for your app.

How To Have Two Domain_6 Accounts On Iphone

Source: https://developer.android.com/training/app-links/verify-site-associations

Posted by: matthewsshomire.blogspot.com

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