[GitHub] [shiro-site] bmarwell commented on a change in pull request #131: [jbake] migrate authentication.md.vtl

[GitBox <gi...@apache.org>]

bmarwell commented on a change in pull request #131:
URL: https://github.com/apache/shiro-site/pull/131#discussion_r749738217



##########
File path: jbake/content/authentication.adoc
##########
@@ -0,0 +1,389 @@
+[#Authentication-Authentication]
+= Apache Shiro Authentication
+:jbake-type: page
+:jbake-status: published
+:jbake-tags: documentation
+:idprefix:
+:icons: font
+:toc:
+
+image::/img/ShiroFeatures_Authentication.png[Shiro features authentication graphic, align="center"]
+
+Authentication is the process of identity verification - that is, proving a user actually is who they say they are.
+
+For a user to prove their identity, they need to provide some identifying information as well as some sort of proof of that identity that your system understands and trusts.
+
+This is done by submitting a user's _principals_ and _credentials_ to Shiro to see if they match what is expected by the application.
+
+* *Principals* are a Subject's 'identifying attributes'.
+Principals can be anything that identifies a Subject, such as a first name (given name), last name (surname or family name), a username, Social Security Number, etc.
+Of course things like family names are not very good at uniquely identifying a `Subject`, so the best principals to use for authentication are unique for an application - typically a username or email address.
+
+[NOTE]
+====
+.Primary Principal
+While Shiro can represent any number of principals, Shiro expects an application to have exactly one 'Primary' principal - a single value that uniquely identifies the `Subject` within the application.
+This is typically a username, email address or globally unique user id in most applications.
+====
+
+* *Credentials* are usually secret values known only by the `Subject` which are used as supporting evidence that they in fact 'own' the claimed identity.
+Some common examples of credentials are passwords, biometric data such as fingerprints and retina scans, and X.509 certificates.
+
+The most common example of a principal/credential pairing is that of a username and password.
+The username is the claimed identity, and the password is the proof matching the claimed identity.
+If a submitted password matches what is expected by the application, the application can largely assume that the user really is who they say they are because no-one else should know the same password.
+
+
+== Authenticating Subjects
+
+The process of authenticating a `Subject` can effectively broken down into three distinct steps:
+
+. Collect the Subject's submitted principals and credentials
+. Submit the principals and credentials for authentication.
+. If the submission is successful, allow access, otherwise retry authentication or block access.
+
+The following code demonstrates how Shiro's API reflects these steps:
+
+[#Authentication-AuthenticatingSubject-Step1]
+=== Step 1: Collect the Subject's principals and credentials
+
+[source,java]
+----
+//Example using most common scenario of username/password pair:
+UsernamePasswordToken token = new UsernamePasswordToken(username, password);
+
+//"Remember Me" built-in: 
+token.setRememberMe(true);
+
+----
+
+In this particular case, we’re using the link:/static/current/apidocs/org/apache/shiro/authc/UsernamePasswordToken.html[UsernamePasswordToken], supporting the most common username/password authentication approach.
+This is an implementation of Shiro's link:/static/current/apidocs/org/apache/shiro/authc/AuthenticationToken.html[org.apache.shiro.authc.AuthenticationToken] interface, which is the base interface used by Shiro's authentication system to represent submitted principals and credentials.
+
+It is important to note here that Shiro does not care how you acquire this information: perhaps the data was acquired by a user submitting an HTML form, or maybe it was retrieved from an HTTP header, or perhaps it was read from a Swing or Flex GUI password form, or maybe via command line arguments.
+The process of collecting information from an application end-user is completely decoupled from Shiro's `AuthenticationToken` concept.
+
+You may construct and represent `AuthenticationToken` instances however you like - it is protocol agnostic.
+
+This example also shows that we have indicated that we wish Shiro to perform 'Remember Me' services for the authentication attempt.
+This ensures that Shiro remembers the user identity if they return to the application at a later date.
+We will cover Remember Me services in a later chapter.
+
+[#Authentication-AuthenticatingSubject-Step2]
+=== Step 2: Submit the principals and credentials
+
+After the principals and credentials have been collected and represented as an `AuthenticationToken` instance, we need to submit the token to Shiro to perform the actual authentication attempt:
+
+[source,java]
+----
+Subject currentUser = SecurityUtils.getSubject();
+
+currentUser.login(token);
+----
+
+After acquiring the currently-executing `Subject`, we make a single `link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#login(org.apache.shiro.authc.AuthenticationToken)[login]` call, passing in the `AuthenticationToken` instance we created earlier.
+
+An invocation to the `login` method effectively represents an authentication attempt.
+
+[#Authentication-AuthenticatingSubject-Step3]
+=== Step 3: Handling Success or Failure
+
+If the `login` method returns quietly, that's it - we're done!
+The `Subject` has been authenticated.
+The application thread can continue uninterrupted and all further calls to `SecurityUtils.getSubject()` will return the authenticated `Subject` instance, and any calls to `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isAuthenticated()[isAuthenticated()]` will return `true`.
+
+But what happens if the login attempt failed?
+For example, what if the end-user supplied an incorrect password, or accessed the system too many times and maybe their account is locked?
+
+Shiro has a rich runtime link:/static/current/apidocs/org/apache/shiro/authc/AuthenticationException.html[`AuthenticationException`] hierarchy that can indicate exactly why the attempt failed.
+You can wrap `login` in a `try/catch` block and catch any exception you wish and react to them accordingly.
+For example:
+
+[source,java]
+----
+try {
+    currentUser.login(token);
+} catch ( UnknownAccountException uae ) { ...
+} catch ( IncorrectCredentialsException ice ) { ...
+} catch ( LockedAccountException lae ) { ...
+} catch ( ExcessiveAttemptsException eae ) { ...
+} ... catch your own ...
+} catch ( AuthenticationException ae ) {
+    //unexpected error?
+}
+
+//No problems, continue on as expected...
+----
+
+If one of the existing exception classes do not meet your needs, custom `AuthenticationExceptions` can be created to represent specific failure scenarios.
+
+[TIP]
+====
+.Login Failure Tip
+While your code can react to specific exceptions and execute logic as necessary, a security best practice is to only show a generic failure message to an end user in the event of a failure, for example, "Incorrect username or password.".
+This ensures no specific information is available to hackers that may be attempting an attack vector.
+====
+
+[#Authentication-RememberedVsAuthenticated]
+== Remembered vs. Authenticated
+
+As shown in the example above, Shiro supports the notion of "remember me" in addition to the normal login process.
+It is worth pointing out at this time that Shiro makes a very precise distinction between a _remembered_ Subject and an actual _authenticated_ Subject:
+
+* *Remembered*: A remembered `Subject` is not anonymous and has a known identity (i.e. `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#getPrincipals()[getPrincipals()]` is non-empty).
+But this identity is remembered from a previous authentication during a *previous* session.
+A subject is considered remembered if `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isRemembered()[isRemembered()]` returns `true`.
+
+* *Authenticated*: An authenticated `Subject` is one that has been successfully authenticated (i.e. the `login` method was invoked without throwing an exception) _during the Subject's current session_.
+A subject is considered authenticated if `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isAuthenticated()[isAuthenticated()]` returns `true`.
+
+[WARNING]
+====
+.Mutually Exclusive
+Remembered and authenticated states are mutually exclusive - a `true` value for one indicates a `false` value for the other and vice versa.
+====

Review comment:
       According to https://asciidoctor.org/docs/asciidoc-writers-guide/#admonitions, I might argue that  `CAUTION` would be the better choice (now that we have it available):
   
   * Use CAUTION to advise the reader to act carefully (i.e., exercise care).
   * Use WARNING to inform the reader of danger, harm, or consequences that exist.
   
   

##########
File path: jbake/content/authentication.adoc
##########
@@ -0,0 +1,389 @@
+[#Authentication-Authentication]
+= Apache Shiro Authentication
+:jbake-type: page
+:jbake-status: published
+:jbake-tags: documentation
+:idprefix:
+:icons: font
+:toc:
+
+image::/img/ShiroFeatures_Authentication.png[Shiro features authentication graphic, align="center"]
+
+Authentication is the process of identity verification - that is, proving a user actually is who they say they are.
+
+For a user to prove their identity, they need to provide some identifying information as well as some sort of proof of that identity that your system understands and trusts.
+
+This is done by submitting a user's _principals_ and _credentials_ to Shiro to see if they match what is expected by the application.
+
+* *Principals* are a Subject's 'identifying attributes'.
+Principals can be anything that identifies a Subject, such as a first name (given name), last name (surname or family name), a username, Social Security Number, etc.
+Of course things like family names are not very good at uniquely identifying a `Subject`, so the best principals to use for authentication are unique for an application - typically a username or email address.
+
+[NOTE]
+====
+.Primary Principal
+While Shiro can represent any number of principals, Shiro expects an application to have exactly one 'Primary' principal - a single value that uniquely identifies the `Subject` within the application.
+This is typically a username, email address or globally unique user id in most applications.
+====
+
+* *Credentials* are usually secret values known only by the `Subject` which are used as supporting evidence that they in fact 'own' the claimed identity.
+Some common examples of credentials are passwords, biometric data such as fingerprints and retina scans, and X.509 certificates.
+
+The most common example of a principal/credential pairing is that of a username and password.
+The username is the claimed identity, and the password is the proof matching the claimed identity.
+If a submitted password matches what is expected by the application, the application can largely assume that the user really is who they say they are because no-one else should know the same password.
+
+
+== Authenticating Subjects
+
+The process of authenticating a `Subject` can effectively broken down into three distinct steps:
+
+. Collect the Subject's submitted principals and credentials
+. Submit the principals and credentials for authentication.
+. If the submission is successful, allow access, otherwise retry authentication or block access.
+
+The following code demonstrates how Shiro's API reflects these steps:
+
+[#Authentication-AuthenticatingSubject-Step1]
+=== Step 1: Collect the Subject's principals and credentials
+
+[source,java]
+----
+//Example using most common scenario of username/password pair:
+UsernamePasswordToken token = new UsernamePasswordToken(username, password);
+
+//"Remember Me" built-in: 
+token.setRememberMe(true);
+
+----
+
+In this particular case, we’re using the link:/static/current/apidocs/org/apache/shiro/authc/UsernamePasswordToken.html[UsernamePasswordToken], supporting the most common username/password authentication approach.
+This is an implementation of Shiro's link:/static/current/apidocs/org/apache/shiro/authc/AuthenticationToken.html[org.apache.shiro.authc.AuthenticationToken] interface, which is the base interface used by Shiro's authentication system to represent submitted principals and credentials.
+
+It is important to note here that Shiro does not care how you acquire this information: perhaps the data was acquired by a user submitting an HTML form, or maybe it was retrieved from an HTTP header, or perhaps it was read from a Swing or Flex GUI password form, or maybe via command line arguments.
+The process of collecting information from an application end-user is completely decoupled from Shiro's `AuthenticationToken` concept.
+
+You may construct and represent `AuthenticationToken` instances however you like - it is protocol agnostic.
+
+This example also shows that we have indicated that we wish Shiro to perform 'Remember Me' services for the authentication attempt.
+This ensures that Shiro remembers the user identity if they return to the application at a later date.
+We will cover Remember Me services in a later chapter.
+
+[#Authentication-AuthenticatingSubject-Step2]
+=== Step 2: Submit the principals and credentials
+
+After the principals and credentials have been collected and represented as an `AuthenticationToken` instance, we need to submit the token to Shiro to perform the actual authentication attempt:
+
+[source,java]
+----
+Subject currentUser = SecurityUtils.getSubject();
+
+currentUser.login(token);
+----
+
+After acquiring the currently-executing `Subject`, we make a single `link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#login(org.apache.shiro.authc.AuthenticationToken)[login]` call, passing in the `AuthenticationToken` instance we created earlier.
+
+An invocation to the `login` method effectively represents an authentication attempt.
+
+[#Authentication-AuthenticatingSubject-Step3]
+=== Step 3: Handling Success or Failure
+
+If the `login` method returns quietly, that's it - we're done!
+The `Subject` has been authenticated.
+The application thread can continue uninterrupted and all further calls to `SecurityUtils.getSubject()` will return the authenticated `Subject` instance, and any calls to `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isAuthenticated()[isAuthenticated()]` will return `true`.
+
+But what happens if the login attempt failed?
+For example, what if the end-user supplied an incorrect password, or accessed the system too many times and maybe their account is locked?
+
+Shiro has a rich runtime link:/static/current/apidocs/org/apache/shiro/authc/AuthenticationException.html[`AuthenticationException`] hierarchy that can indicate exactly why the attempt failed.
+You can wrap `login` in a `try/catch` block and catch any exception you wish and react to them accordingly.
+For example:
+
+[source,java]
+----
+try {
+    currentUser.login(token);
+} catch ( UnknownAccountException uae ) { ...
+} catch ( IncorrectCredentialsException ice ) { ...
+} catch ( LockedAccountException lae ) { ...
+} catch ( ExcessiveAttemptsException eae ) { ...
+} ... catch your own ...
+} catch ( AuthenticationException ae ) {
+    //unexpected error?
+}
+
+//No problems, continue on as expected...
+----
+
+If one of the existing exception classes do not meet your needs, custom `AuthenticationExceptions` can be created to represent specific failure scenarios.
+
+[TIP]
+====
+.Login Failure Tip
+While your code can react to specific exceptions and execute logic as necessary, a security best practice is to only show a generic failure message to an end user in the event of a failure, for example, "Incorrect username or password.".
+This ensures no specific information is available to hackers that may be attempting an attack vector.
+====
+
+[#Authentication-RememberedVsAuthenticated]
+== Remembered vs. Authenticated
+
+As shown in the example above, Shiro supports the notion of "remember me" in addition to the normal login process.
+It is worth pointing out at this time that Shiro makes a very precise distinction between a _remembered_ Subject and an actual _authenticated_ Subject:
+
+* *Remembered*: A remembered `Subject` is not anonymous and has a known identity (i.e. `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#getPrincipals()[getPrincipals()]` is non-empty).
+But this identity is remembered from a previous authentication during a *previous* session.
+A subject is considered remembered if `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isRemembered()[isRemembered()]` returns `true`.
+
+* *Authenticated*: An authenticated `Subject` is one that has been successfully authenticated (i.e. the `login` method was invoked without throwing an exception) _during the Subject's current session_.
+A subject is considered authenticated if `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isAuthenticated()[isAuthenticated()]` returns `true`.
+
+[WARNING]
+====
+.Mutually Exclusive
+Remembered and authenticated states are mutually exclusive - a `true` value for one indicates a `false` value for the other and vice versa.
+====
+
+[#Authentication-RememberedVsAuthenticated-WhyTheDistinction]
+=== Why the distinction?
+
+The word 'authentication' has a very strong connotation of _proof_.
+That is, there is an expected _guarantee_ that the `Subject` has proven they are who they say they are.
+
+When a user is only remembered from a previous interaction with the application, the state of proof no longer exists: the remembered identity gives the system an idea who that user probably is, but in reality, has no way of absolutely _guaranteeing_ if the remembered Subject represents the expected user.
+Once the subject is authenticated, they are no longer considered only remembered because their identity would have been verified during the current session.
+
+So although many parts of the application can still perform user-specific logic based on the remembered principals, such as customized views, it should typically never perform highly-sensitive operations until the user has legitimately verified their identity by executing a successful authentication attempt.
+
+For example, a check to see if a `Subject` can access financial information should almost always depend on `isAuthenticated()`, not `isRemembered()`, to guarantee an expected and verified identity.
+
+[#Authentication-RememberedVsAuthenticated-AnIllustratingExample]
+=== An illustrating example
+
+The following is a fairly common scenario that helps illustrate why the the distinction between remembered and authenticated is important.
+
+Let's say you're using https://www.amazon.com[Amazon.com].
+You've logged-in successfully and have added a few books to your shopping cart.
+But you have to run off to a meeting, but forget to log out.
+By the time the meeting is over, it's time to go home and you leave the office.
+
+The next day when you come in to work, you realize you didn't complete your purchase, so you go back to amazon.com.
+This time, Amazon 'remembers' who you are, greets you by name, and still gives you some personalized book recommendations.
+To Amazon, `subject.isRemembered()` would return `true`.
+
+But, what happens if you try to access your account to update your credit card information to make your book purchase?
+While Amazon 'remembers' you (`isRemembered()` == `true`), it cannot guarantee that you are in fact you (for example, maybe a co-worker is using your computer).
+
+So before you can perform a sensitive action like updating credit card information, Amazon will force you to login so they can guarantee your identity.
+After you login, your identity has been verified and to Amazon, `isAuthenticated()` would now be `true`.
+
+This scenario happens so frequently for many types of applications, so the functionality is built in to Shiro so you can leverage it for your own application.
+Now, whether you use `isRemembered()` or `isAuthenticated()` to customize your views and workflows is up to you, but Shiro will maintain this fundamental state in case you need it.
+
+[#Authentication-LoggingOut]
+== Logging Out
+
+The opposite of authenticating is releasing all known identifying state.
+When the `Subject` is done interacting with the application, you can call `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#logout()[logout()]` to relinquish all identifying information:
+
+[source,java]
+----
+currentUser.logout(); //removes all identifying information and invalidates their session too.
+----
+
+When you call `logout`, any existing `Session` will be invalidated and any identity will be disassociated (e.g. in a web app, the RememberMe cookie will also be deleted).
+
+After a `Subject` logs-out, the `Subject` instance is considered anonymous again and, except for web applications, can be re-used for `login` again if desired.
+
+[CAUTION]
+====
+.Web Application Notice
+Because remembered identity in web applications is often persisted with cookies, and cookies can only be deleted before a Response body is committed, it is highly recommended to redirect the end-user to a new view or page immediately after calling `subject.logout()`.
+This guarantees that any security-related cookies are deleted as expected.
+This is a limitation of how HTTP cookies function and not a limitation of Shiro.
+====

Review comment:
       Same, CAUTION might be a better choice which was not available in MD+SCMS.

##########
File path: jbake/content/authentication.adoc
##########
@@ -0,0 +1,389 @@
+[#Authentication-Authentication]
+= Apache Shiro Authentication
+:jbake-type: page
+:jbake-status: published
+:jbake-tags: documentation
+:idprefix:
+:icons: font
+:toc:
+
+image::/img/ShiroFeatures_Authentication.png[Shiro features authentication graphic, align="center"]
+
+Authentication is the process of identity verification - that is, proving a user actually is who they say they are.
+
+For a user to prove their identity, they need to provide some identifying information as well as some sort of proof of that identity that your system understands and trusts.
+
+This is done by submitting a user's _principals_ and _credentials_ to Shiro to see if they match what is expected by the application.
+
+* *Principals* are a Subject's 'identifying attributes'.
+Principals can be anything that identifies a Subject, such as a first name (given name), last name (surname or family name), a username, Social Security Number, etc.
+Of course things like family names are not very good at uniquely identifying a `Subject`, so the best principals to use for authentication are unique for an application - typically a username or email address.
+
+[NOTE]
+====
+.Primary Principal
+While Shiro can represent any number of principals, Shiro expects an application to have exactly one 'Primary' principal - a single value that uniquely identifies the `Subject` within the application.
+This is typically a username, email address or globally unique user id in most applications.
+====
+
+* *Credentials* are usually secret values known only by the `Subject` which are used as supporting evidence that they in fact 'own' the claimed identity.
+Some common examples of credentials are passwords, biometric data such as fingerprints and retina scans, and X.509 certificates.
+
+The most common example of a principal/credential pairing is that of a username and password.
+The username is the claimed identity, and the password is the proof matching the claimed identity.
+If a submitted password matches what is expected by the application, the application can largely assume that the user really is who they say they are because no-one else should know the same password.
+
+
+== Authenticating Subjects
+
+The process of authenticating a `Subject` can effectively broken down into three distinct steps:
+
+. Collect the Subject's submitted principals and credentials
+. Submit the principals and credentials for authentication.
+. If the submission is successful, allow access, otherwise retry authentication or block access.
+
+The following code demonstrates how Shiro's API reflects these steps:
+
+[#Authentication-AuthenticatingSubject-Step1]
+=== Step 1: Collect the Subject's principals and credentials
+
+[source,java]
+----
+//Example using most common scenario of username/password pair:
+UsernamePasswordToken token = new UsernamePasswordToken(username, password);
+
+//"Remember Me" built-in: 
+token.setRememberMe(true);
+
+----
+
+In this particular case, we’re using the link:/static/current/apidocs/org/apache/shiro/authc/UsernamePasswordToken.html[UsernamePasswordToken], supporting the most common username/password authentication approach.
+This is an implementation of Shiro's link:/static/current/apidocs/org/apache/shiro/authc/AuthenticationToken.html[org.apache.shiro.authc.AuthenticationToken] interface, which is the base interface used by Shiro's authentication system to represent submitted principals and credentials.
+
+It is important to note here that Shiro does not care how you acquire this information: perhaps the data was acquired by a user submitting an HTML form, or maybe it was retrieved from an HTTP header, or perhaps it was read from a Swing or Flex GUI password form, or maybe via command line arguments.
+The process of collecting information from an application end-user is completely decoupled from Shiro's `AuthenticationToken` concept.
+
+You may construct and represent `AuthenticationToken` instances however you like - it is protocol agnostic.
+
+This example also shows that we have indicated that we wish Shiro to perform 'Remember Me' services for the authentication attempt.
+This ensures that Shiro remembers the user identity if they return to the application at a later date.
+We will cover Remember Me services in a later chapter.
+
+[#Authentication-AuthenticatingSubject-Step2]
+=== Step 2: Submit the principals and credentials
+
+After the principals and credentials have been collected and represented as an `AuthenticationToken` instance, we need to submit the token to Shiro to perform the actual authentication attempt:
+
+[source,java]
+----
+Subject currentUser = SecurityUtils.getSubject();
+
+currentUser.login(token);
+----
+
+After acquiring the currently-executing `Subject`, we make a single `link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#login(org.apache.shiro.authc.AuthenticationToken)[login]` call, passing in the `AuthenticationToken` instance we created earlier.
+
+An invocation to the `login` method effectively represents an authentication attempt.
+
+[#Authentication-AuthenticatingSubject-Step3]
+=== Step 3: Handling Success or Failure
+
+If the `login` method returns quietly, that's it - we're done!
+The `Subject` has been authenticated.
+The application thread can continue uninterrupted and all further calls to `SecurityUtils.getSubject()` will return the authenticated `Subject` instance, and any calls to `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isAuthenticated()[isAuthenticated()]` will return `true`.
+
+But what happens if the login attempt failed?
+For example, what if the end-user supplied an incorrect password, or accessed the system too many times and maybe their account is locked?
+
+Shiro has a rich runtime link:/static/current/apidocs/org/apache/shiro/authc/AuthenticationException.html[`AuthenticationException`] hierarchy that can indicate exactly why the attempt failed.
+You can wrap `login` in a `try/catch` block and catch any exception you wish and react to them accordingly.
+For example:
+
+[source,java]
+----
+try {
+    currentUser.login(token);
+} catch ( UnknownAccountException uae ) { ...
+} catch ( IncorrectCredentialsException ice ) { ...
+} catch ( LockedAccountException lae ) { ...
+} catch ( ExcessiveAttemptsException eae ) { ...
+} ... catch your own ...
+} catch ( AuthenticationException ae ) {
+    //unexpected error?
+}
+
+//No problems, continue on as expected...
+----
+
+If one of the existing exception classes do not meet your needs, custom `AuthenticationExceptions` can be created to represent specific failure scenarios.
+
+[TIP]
+====
+.Login Failure Tip
+While your code can react to specific exceptions and execute logic as necessary, a security best practice is to only show a generic failure message to an end user in the event of a failure, for example, "Incorrect username or password.".
+This ensures no specific information is available to hackers that may be attempting an attack vector.
+====
+
+[#Authentication-RememberedVsAuthenticated]
+== Remembered vs. Authenticated
+
+As shown in the example above, Shiro supports the notion of "remember me" in addition to the normal login process.
+It is worth pointing out at this time that Shiro makes a very precise distinction between a _remembered_ Subject and an actual _authenticated_ Subject:
+
+* *Remembered*: A remembered `Subject` is not anonymous and has a known identity (i.e. `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#getPrincipals()[getPrincipals()]` is non-empty).
+But this identity is remembered from a previous authentication during a *previous* session.
+A subject is considered remembered if `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isRemembered()[isRemembered()]` returns `true`.
+
+* *Authenticated*: An authenticated `Subject` is one that has been successfully authenticated (i.e. the `login` method was invoked without throwing an exception) _during the Subject's current session_.
+A subject is considered authenticated if `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#isAuthenticated()[isAuthenticated()]` returns `true`.
+
+[WARNING]
+====
+.Mutually Exclusive
+Remembered and authenticated states are mutually exclusive - a `true` value for one indicates a `false` value for the other and vice versa.
+====
+
+[#Authentication-RememberedVsAuthenticated-WhyTheDistinction]
+=== Why the distinction?
+
+The word 'authentication' has a very strong connotation of _proof_.
+That is, there is an expected _guarantee_ that the `Subject` has proven they are who they say they are.
+
+When a user is only remembered from a previous interaction with the application, the state of proof no longer exists: the remembered identity gives the system an idea who that user probably is, but in reality, has no way of absolutely _guaranteeing_ if the remembered Subject represents the expected user.
+Once the subject is authenticated, they are no longer considered only remembered because their identity would have been verified during the current session.
+
+So although many parts of the application can still perform user-specific logic based on the remembered principals, such as customized views, it should typically never perform highly-sensitive operations until the user has legitimately verified their identity by executing a successful authentication attempt.
+
+For example, a check to see if a `Subject` can access financial information should almost always depend on `isAuthenticated()`, not `isRemembered()`, to guarantee an expected and verified identity.
+
+[#Authentication-RememberedVsAuthenticated-AnIllustratingExample]
+=== An illustrating example
+
+The following is a fairly common scenario that helps illustrate why the the distinction between remembered and authenticated is important.
+
+Let's say you're using https://www.amazon.com[Amazon.com].
+You've logged-in successfully and have added a few books to your shopping cart.
+But you have to run off to a meeting, but forget to log out.
+By the time the meeting is over, it's time to go home and you leave the office.
+
+The next day when you come in to work, you realize you didn't complete your purchase, so you go back to amazon.com.
+This time, Amazon 'remembers' who you are, greets you by name, and still gives you some personalized book recommendations.
+To Amazon, `subject.isRemembered()` would return `true`.
+
+But, what happens if you try to access your account to update your credit card information to make your book purchase?
+While Amazon 'remembers' you (`isRemembered()` == `true`), it cannot guarantee that you are in fact you (for example, maybe a co-worker is using your computer).
+
+So before you can perform a sensitive action like updating credit card information, Amazon will force you to login so they can guarantee your identity.
+After you login, your identity has been verified and to Amazon, `isAuthenticated()` would now be `true`.
+
+This scenario happens so frequently for many types of applications, so the functionality is built in to Shiro so you can leverage it for your own application.
+Now, whether you use `isRemembered()` or `isAuthenticated()` to customize your views and workflows is up to you, but Shiro will maintain this fundamental state in case you need it.
+
+[#Authentication-LoggingOut]
+== Logging Out
+
+The opposite of authenticating is releasing all known identifying state.
+When the `Subject` is done interacting with the application, you can call `subject.link:/static/current/apidocs/org/apache/shiro/subject/Subject.html#logout()[logout()]` to relinquish all identifying information:
+
+[source,java]
+----
+currentUser.logout(); //removes all identifying information and invalidates their session too.
+----
+
+When you call `logout`, any existing `Session` will be invalidated and any identity will be disassociated (e.g. in a web app, the RememberMe cookie will also be deleted).
+
+After a `Subject` logs-out, the `Subject` instance is considered anonymous again and, except for web applications, can be re-used for `login` again if desired.
+
+[CAUTION]
+====
+.Web Application Notice
+Because remembered identity in web applications is often persisted with cookies, and cookies can only be deleted before a Response body is committed, it is highly recommended to redirect the end-user to a new view or page immediately after calling `subject.logout()`.
+This guarantees that any security-related cookies are deleted as expected.
+This is a limitation of how HTTP cookies function and not a limitation of Shiro.
+====
+
+[#Authentication-AuthenticationSequence]
+== Authentication Sequence
+
+Until now, we've only looked at how to authenticate a `Subject` from within application code.
+Now we'll cover what happens inside Shiro when an authentication attempt occurs.
+
+We've taken our previous architecture diagram from the link:/architecture.html[Architecture] chapter, and left only the components relevant to authentication highlighted.
+Each number represents a step during an authentication attempt:
+
+image::/img/ShiroAuthenticationSequence.png[authentication flow diagram, align="center"]
+
+*Step 1*: Application code invokes the `Subject.login` method, passing in the constructed `AuthenticationToken` instance representing the end-user's principals and credentials.
+
+*Step 2*: The `Subject` instance, typically a link:/static/current/apidocs/org/apache/shiro/subject/support/DelegatingSubject.html[`DelegatingSubject`] (or a subclass) delegates to the application's `SecurityManager` by calling `securityManager.login(token)`, where the actual authentication work begins.
+
+*Step 3*: The `SecurityManager`, being a basic 'umbrella' component, receives the token and simply delegates to its internal link:/static/current/apidocs/org/apache/shiro/authc/Authenticator.html[`Authenticator`] instance by calling `link:/static/current/apidocs/org/apache/shiro/authc/Authenticator.html#authenticate(org.apache.shiro.authc.AuthenticationToken)[authenticator.authenticate(token)]`.
+This is almost always a link:/static/current/apidocs/org/apache/shiro/authc/pam/ModularRealmAuthenticator.html[`ModularRealmAuthenticator`] instance, which supports coordinating one or more `Realm` instances during authentication.
+The `ModularRealmAuthenticator` essentially provides a https://en.wikipedia.org/wiki/Pluggable_Authentication_Modules[PAM]-style paradigm for Apache Shiro (where each `Realm`
+is a 'module' in PAM terminology).
+
+*Step 4*: If more than one `Realm` is configured for the application, the `ModularRealmAuthenticator` instance will initiate a multi-`Realm` authentication attempt utilizing its configured link:/static/current/apidocs/org/apache/shiro/authc/pam/AuthenticationStrategy.html[`AuthenticationStrategy`].
+Before, during and after the `Realms` are invoked for authentication, the `AuthenticationStrategy` will be called to allow it to react to each Realm's results.
+We will cover `AuthenticationStrategies` soon.
+
+[CAUTION]
+====
+.Single-Realm Application
+If only a single Realm is configured, it is called directly - there is no need for an `AuthenticationStrategy` in a single-Realm application.
+====

Review comment:
       This sounds more like INFO or TIP or NOTE to me.




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