PATENT DOCUMENT

Publication Number: US-10944562-B2
Application Number: US-201816221043-A
Country: US
Kind Code: B2

Title: Authenticating a messaging program session

Abstract:
Techniques disclosed herein relate to the authentication of a first user in a communication session between the first user using a user device and a second user using a remote computer system. The computer system sends an authentication request in the session, and the user device receives the authentication request in the session via a messaging program. The user device then causes a different program to access an authentication token received from an authentication computer system. The user device sends an indication of the authentication token to the remote computer system which the remote computer system verifies to authenticate the first user within the session.

Claims:
What is claimed is: 
     
       1. A method comprising:
 running, on a user device, a messaging program that facilitates a session between a first user of the user device and a second user of a remote computer system, wherein the session includes text communication; 
 receiving, at the user device via the messaging program, an authentication request within the session; 
 in response to the authentication request, causing a different program running on the user device to access a memory of the user device and retrieve an authentication token from an authentication computer system, wherein the different program is an application associated with the second user, wherein prior to receiving the authentication request the first user has logged into the application, and wherein the application received the authentication token from the authentication computer system as a result of the first user logging in and stored the authentication token in the memory; and 
 after accessing the authentication token, sending, from the user device to the remote computer system using the messaging program, an indication of the authentication token, wherein the authentication token is usable by the remote computer system to authenticate the first user within the session. 
 
     
     
       2. The method of  claim 1 , wherein the application associated with the second user is associated with a digital distribution platform; the method further comprising:
 sending, from the user device to the digital distribution platform, a request to verify that the application associated with the second user is associated with the second user. 
 
     
     
       3. The method of  claim 1 , wherein causing the different program to access the authentication token includes receiving biometric information from the first user. 
     
     
       4. The method of  claim 1 , wherein the first user has logged into the application by:
 receiving, using the different program, verification information from the first user; 
 sending, from the user device to the authentication computer system, the verification information; and 
 receiving, at the user device and from the authentication computer system, the authentication token as a result of sending the verification information. 
 
     
     
       5. The method of  claim 1 , wherein the authentication token is stored in a password manager of the user device. 
     
     
       6. The method of  claim 5 ,
 wherein causing the different program running on the user device to access the memory device and retrieve an authentication token includes prompting the first user for verification information; and 
 wherein the password manager is unlocked using the verification information prior to retrieval of the authentication token. 
 
     
     
       7. The method of  claim 6 , wherein the verification information is biometric information received from the first user, and wherein the biometric information is not transmitted off of the user device. 
     
     
       8. The method of  claim 1 ,
 wherein the authentication request includes a cryptographic key; and 
 wherein the indication of the authentication token comprises the authentication token encrypted using the cryptographic key. 
 
     
     
       9. An apparatus comprising:
 a computer processor system; and 
 a computer memory storing instructions that when executed by the computer processor system causes the apparatus to perform operations comprising:
 running a messaging program that facilitates a session between a first user of the apparatus and a second user of a remote computer system, wherein the session includes text communication; 
 receiving, via the messaging program, an authentication request within the session, wherein the authentication request includes a resource locator; 
 in response to the authentication request, causing a different program running on the apparatus to access an authentication token from an authentication computer system by:
 using the different program to access the authentication computer system using the resource locator; 
 sending, from the apparatus to the authentication computer system, verification information; and 
 receiving, from the authentication computer system to the apparatus, the authentication token; and 
 
 after accessing the authentication token, sending, to the remote computer system using the messaging program, an indication of the authentication token, wherein the authentication token is usable by the remote computer system to authenticate the first user within the session. 
 
 
     
     
       10. The apparatus of  claim 9 , wherein the authentication token is stored in a password manager of the apparatus. 
     
     
       11. The apparatus of  claim 9 ,
 wherein the authentication request includes a cryptographic key; and 
 wherein the indication of the authentication token comprises the authentication token encrypted using the cryptographic key. 
 
     
     
       12. The apparatus of  claim 9 , wherein causing the different program to access the authentication token includes receiving biometric information from the first user. 
     
     
       13. The apparatus of  claim 9 , wherein causing the different program to access the authentication token includes:
 receiving, using the different program, verification information from the first user. 
 
     
     
       14. The apparatus of  claim 9 , wherein the operations further include:
 storing the authentication token; 
 receiving, via the messaging program, a subsequent authentication request; and 
 sending, in response to the subsequent authentication, the authentication token to the remote computer system. 
 
     
     
       15. The apparatus of  claim 9 , further comprising:
 a display; 
 wherein a first user interface of the messaging program is displayed on the display during the receiving and the sending; and 
 wherein a second user interface of the different program is displayed on the display when the different program is accessing the authentication token. 
 
     
     
       16. A method comprising:
 storing, at a messaging computer system, an indication of a session between a first user of a user device and a second user of a remote computer system, wherein the session includes text communication between the remote computer system and a messaging program running on the user device; 
 receiving, at the messaging computer system from the remote computer system, a first authentication request to authenticate the first user in the session; 
 sending, from the messaging computer system to the messaging program running on the user device, a second authentication request; 
 receiving, at the messaging computer system from the messaging program, an indication of an authentication token that the user device received from an authentication computer system; 
 sending, from the messaging computer system to the remote computer system, the indication of the authentication token; and 
 sending, from the messaging computer system to the messaging program, an indication of whether the first user has been authenticated in the session 
 wherein the communications between the messaging computer system and the messaging program are encrypted according to a first cryptographic protocol; 
 wherein the messaging computer system stores a cryptographic key useable to decrypt the first cryptographic protocol; 
 wherein the indication of the authentication token is encrypted according to a second cryptographic protocol; and 
 wherein the messaging computer system does not store a cryptographic key useable to decrypt the second cryptographic protocol. 
 
     
     
       17. The method of  claim 16 , further comprising:
 wherein the second authentication request includes a cryptographic key; and 
 wherein the indication of the authentication token is encrypted using the cryptographic key. 
 
     
     
       18. The method of  claim 16 , wherein the indication of the authentication token is encrypted, the method further comprising:
 receiving, at the messaging computer system, an audit request to determine whether the messaging computer system decrypted the encrypted indication of the authentication token; and 
 in response to the audit request, sending, from the messaging computer system, information showing that the encrypted indication of the authentication token was not decrypted by the messaging computer system. 
 
     
     
       19. The method of  claim 16 , further comprising:
 facilitating, with the messaging computer system, the session between the first user of the user device and the second user of the remote computer system, wherein the facilitating includes:
 relaying communications from the remote computer system to the user device; 
 relaying communications from the user device to the remote computer system; and 
 associating the relayed communications with the session. 
 
 
     
     
       20. The method of  claim 16 , further comprising:
 sending, to a second user device associated with the first user, an indication of whether the first user has been authenticated in the session without sending the authentication token.

Description:
This application claims the benefit of U.S. Prov. Appl. No. 62/679,886 filed on Jun. 3, 2018, which is incorporated by reference herein in its entirety. 
    
    
     BACKGROUND 
     Technical Field 
     This disclosure relates generally to authenticating a first user communicating with a second user, particularly in the context of a session that is facilitated by a messaging program. 
     Description of the Related Art 
     Messaging programs facilitate communication between users of the messaging programs by allowing the users to send messages to one another. These messaging programs may associate the various messages exchanged between the users into sessions. Users might have any of a number of reasons to communicate with one another via the messaging programs. Some of these communications, though, may relate to personal information, financial information, or other sensitive information that one or more of the users desires to keep confidential. 
     SUMMARY 
     The present disclosure concerns the authentication of a first user of a user device in a communication session between the first user and a second user. An exemplary computer system, messaging computer system, user device, and authentication computer system communicate to enable the first user of the user device to be authenticated in a communication session with a second user of the computer system. The computer system sends an authentication request to the messaging computer system requesting information useable to authenticate the first user in the session. In turn, the messaging computer system sends an authentication request to the user device, which receives the authentication request using a messaging program running on the user device. Upon receiving the authentication request, the user device causes a different program running on the user device to access an authentication token useable to authenticate the first user in the session. In some embodiments, the different program has previously received the authentication token from the authentication computer system, but in other embodiments the different program communicates with the authentication computer system to request the authentication token. Upon receiving the token access request from the user device, the authentication computer system receives verification information from the user device, and upon receiving the verification information sends the authentication token to the user device. After receiving the authentication token, the user device sends an indication of the authentication token to the messaging computer system, which in turn sends the indication of the authentication token to the computer system. The computer system receives the indication of the authentication token and verifies the indication to authenticate the first user within the communication session. 
    
    
     
       BRIEF DESCRIPTION OF THE DRAWINGS 
         FIG. 1  is a block diagram illustrating an embodiment of a computer system, a messaging computer system, a user device, and an authentication computer system in accordance with various embodiments. 
         FIG. 2  is an expanded block diagram of the computer system of  FIG. 1  in accordance with various embodiments. 
         FIG. 3  is an expanded block diagram of the user device of  FIG. 1  in accordance with various embodiments. 
         FIG. 4  is a flowchart showing various communications between various components shown in  FIG. 1 . 
         FIGS. 5-8  are flowcharts illustrating embodiments of authentication methods in accordance with the disclosed embodiments. 
         FIG. 9  is a flowchart illustrating exemplary user device user interface screens in accordance with the disclosed embodiments. 
         FIG. 10  is a block diagram of an exemplary computer system, which may implement various components of  FIGS. 1, 2, and 3 . 
     
    
    
     This disclosure includes references to “one embodiment” or “an embodiment.” The appearances of the phrases “in one embodiment” or “in an embodiment” do not necessarily refer to the same embodiment. Particular features, structures, or characteristics may be combined in any suitable manner consistent with this disclosure. 
     Within this disclosure, different entities (which may variously be referred to as “units,” “circuits,” other components, etc.) may be described or claimed as “configured” to perform one or more tasks or operations. This formulation—[entity] configured to [perform one or more tasks]—is used herein to refer to structure (i.e., something physical, such as an electronic circuit). More specifically, this formulation is used to indicate that this structure is arranged to perform the one or more tasks during operation. A structure can be said to be “configured to” perform some task even if the structure is not currently being operated. A “computer system configured to receive an authentication request” is intended to cover, for example, a computer system has circuitry that performs this function during operation, even if the computer system in question is not currently being used (e.g., a power supply is not connected to it). Thus, an entity described or recited as “configured to” perform some task refers to something physical, such as a device, circuit, memory storing program instructions executable to implement the task, etc. This phrase is not used herein to refer to something intangible. Thus, the “configured to” construct is not used herein to refer to a software entity such as an application programming interface (API). 
     The term “configured to” is not intended to mean “configurable to.” An unprogrammed FPGA, for example, would not be considered to be “configured to” perform some specific function, although it may be “configurable to” perform that function and may be “configured to” perform the function after programming. 
     Reciting in the appended claims that a structure is “configured to” perform one or more tasks is expressly intended not to invoke 35 U.S.C. § 112(f) for that claim element. Accordingly, none of the claims in this application as filed are intended to be interpreted as having means-plus-function elements. Should Applicant wish to invoke Section 112(f) during prosecution, it will recite claim elements using the “means for” [performing a function] construct. 
     As used herein, the terms “first,” “second,” etc. are used as labels for nouns that they precede, and do not imply any type of ordering (e.g., spatial, temporal, logical, etc.) unless specifically stated. For example, references to “first” and “second” user devices would not imply an ordering between the two unless otherwise stated. 
     As used herein, the term “based on” is used to describe one or more factors that affect a determination. This term does not foreclose the possibility that additional factors may affect a determination. That is, a determination may be solely based on specified factors or based on the specified factors as well as other, unspecified factors. Consider the phrase “determine A based on B.” This phrase specifies that B is a factor is used to determine A or that affects the determination of A. This phrase does not foreclose that the determination of A may also be based on some other factor, such as C. This phrase is also intended to cover an embodiment in which A is determined based solely on B. As used herein, the phrase “based on” is thus synonymous with the phrase “based at least in part on.” 
     As used herein, the word “module” refers to structure that stores or executes a set of operations. A module refers to hardware that implements the set of operations, or a memory storing the set of instructions such that, when executed by one or more processors of a computer system, cause the computer system to perform the set of operations. A module may thus include an application-specific integrated circuit implementing the instructions, a memory storing the instructions and one or more processors executing said instructions, or a combination of both. 
     DETAILED DESCRIPTION 
     Referring now to  FIG. 1 , a block diagram illustrates an exemplary embodiment of a computer system  110 , a messaging computer system  120 , a user device  130 , and an authentication computer system  140  and the various ways they communicate with one another as part of facilitating a session  100  between a first user  102  and a second user  104 . 
     Session  100  is a series of communications between first user  102  and second user  104 . As discussed herein, session  100  is facilitated by messaging computer system  120  and messaging program  132  as discussed herein. As used herein, the term “facilitate” broadly refers to acts that contribute to the ability of first user  102  to communicate with second user  104  in session  100 . For example, facilitating includes but is not limited to receiving messages, storing messages, sending received messages to other computer systems, displaying received messages, and/or associating received messages with a particular session  100 . In various embodiments, session  100  includes text communication exchanged between first user  102  and second user  104 . In various embodiments, first user  102  and second user  104  exchange visual information, audio information, and/or textual communication information communicated via messaging program  132  during session  100 . In various embodiments, first user  102  initiates session  100 , but in other embodiments, second user  104  initiates session  100 . In some embodiments, session  100  begins as a result of previous communications occurring outside session  100  (e.g., first user  102  sends a request to second user  104  via a webpage for second user  104  to initiate a session  100  when customer service personnel of second user  104  are available to communicate). In various embodiments discussed herein, computer system  110 , messaging computer system  120 , user device  130 , and/or authentication computer system  140  are configured to store indications of session  100  (e.g., an identifier associated with session  100 , messages exchanged between first user  102  and second user  104 , etc.). Further, computer system  110 , messaging computer system  120 , user device  130 , and/or authentication computer system  140  may be configured to display the various messages in session  100  (e.g., to first user  102  via a user interface of user device  130 , to second user  104  via a user interface of computer system  110 , to other users via user interfaces of the messaging computer system  120  and/or authentication computer system  140 ). A session  100  have a limited duration (e.g., the session ends after 30 minutes after the last message sent from one user to another user), but in other embodiments a session  100  can remain active indefinitely. Session  100  is discussed in further detail in reference to  FIG. 9 . 
     In various embodiments, first user  102  is a natural person who has access to user device  130 . In such embodiments, first user  102  has a relationship with second user  104  and the communications with second user  104  in session  100  are relevant to the relationship. For example, in some embodiments first user  102  is a customer, client, member, contractee, employee, or agent of second user  104 . More particularly, in some embodiments, first user  102  is a customer that has purchased (or is interested in purchasing) goods from second user  104 . In another example, first user  102  is an account holder with second user  104 , which is a financial institution. In another example, first user  102  is an employee or contractor with second user  104  seeking to receive confidential information from second user  104 . In various embodiments, second user  104  is a natural person, but in other embodiments second user  104  is a company or organization. In various embodiments, the entity that communicates with first user  102  during session  100  is one or more natural people acting on the behalf of the second user  104 . In other embodiments, the entity that communicates with first user  102  during session  100  is software that is capable of parsing first user&#39;s  102  communications and responding accordingly. In various embodiments, the entity communicating with first user during session  100  is a combination of software and one or more natural people (e.g., software that handles the initial portion of session  100  with a natural person taking over once the discussion in session  100  becomes more complicated). 
     The various components shown in  FIG. 1  may communicate with one another in any of a number of ways including wired communication, wireless communication, or a combination using any suitable communication protocol (e.g., http). In various embodiments, computer system  110 , messaging computer system  120 , user device  130 , and/or authentication computer system  140  communicate directly (e.g., the computer system  110  directly communicates with messaging computer system  120 ). In other embodiments, however, the computer system  110 , messaging computer system  120 , user device  130 , and/or authentication computer system  140  communicate via intermediaries (e.g., over local area networks, over wide area networks). In various embodiments, computer system  110 , messaging computer system  120 , user device  130 , and/or authentication computer system  140  are connected to the Internet. 
     Computer system  110  is one or more computer systems that second user  104  utilizes to communicate with first user  102  in session  100 . In various embodiments, computer system  110  is remote from messaging computer system  120 , user device  130 , and/or authentication computer system  140 . Computer system  110  is configured to send messages to and receive messages from messaging computer system  120 . As discussed herein, in various embodiments, computer system  110  is also configured to send messages to and receive messages from authentication computer system  140 . In such embodiments, computer system  110  sends authentication request  112  to authenticate first user  102  within the session  100 . In these embodiments, computer system  110  sends authentication request  112  via messaging computer system  120  to messaging program  132  running on user device  130 . As discussed herein, after sending authentication request  112 , computer system  110  receives an indication  136  of an authentication token  142  that user device  130  received from authentication computer system  140 . In such embodiments, computer system  110  receives indication  136  from messaging program  132  running on user device  130  via messaging computer system  120 . After receiving indication  136 , computer system  110  verifies the indication  136  to authenticate first user  102  within session  100 . In various embodiments, indication  136  includes an encrypted version of authentication token  142  received from authentication computer system. In such embodiments, computer system  110  verifies the indication  136  by decrypting the encrypted authentication token  142  and comparing the authentication token  142  to an expected value of the token stored at computer system  110 . In various embodiments, verification of the indication  136  includes computer system  110  communicating with authentication computer system  140  as discussed herein. Computer system  110  and its various components are discussed herein in further detail with reference to  FIG. 2 . 
     Messaging computer system  120  is one or more computer systems that facilitates communications between first user  102  and second user  104  in session  100 . In various embodiments, messaging computer system  120  is remote from computer system  110 , user device  130 , and/or authentication computer system  140 . Messaging computer system  120  is configured to receive messages from computer system  110  and user device  130  and to send messages to computer system  110  and user device  130 . Further, messaging computer system  120  is configured to relay communications from computer system  110  to user device  130  and relay communications from user device  130  to computer system  110 . In various embodiments, these relayed communications are associated with session  100  (e.g., by storing an indication of session  100  and sending a reference to this indication along with the relayed messages). 
     User device  130  is one or more computer systems that first user  102  utilizes to communicate with second user  104  in session  100 . In various embodiments, user device  130  is remote from computer system  110 , messaging computer system  120 , and/or authentication computer system  140 . User device  130  is configured to send messages to and receive messages from messaging computer system  120 . User device  130  is configured to run at least one messaging program  132  and at least one different program  134 . Messaging program  132  facilitates session  100  between first user  102  of user device  130  and second user of a computer system  110 . User device  130  is configured to receive authentication request  122  via messaging program  132  within session  100 . In response to authentication request  122 , user device  130  causes different program  134  to access an authentication token  142  received from an authentication computer system  140 . As discussed herein, in various embodiments user device  130  already has authentication token  142  (e.g., in storage  300 ) and different program  134  access this previously-received authentication token  142 , but in other embodiments, user device  130  causes different program  134  to request authentication token  142  from authentication computer system  140 . After accessing authentication token  142 , user device  130  uses messaging program  132  to send an indication  136  of authentication token  142  to computer system  110 . As discussed herein, in various embodiments the indication  136  includes authentication token  142  (in encrypted or unencrypted form) or a reference to authentication token  142 , and authentication token  142  is useable by computer system  110  to authenticate first user  102  within session  100 . User device  130 , messaging program  132 , and different program  134  are discussed herein in further detail with reference to  FIG. 3 . Authentication token  142  and indication  136  of authentication token  142  are discussed herein in further detail with reference to  FIG. 4 . 
     Authentication computer system  140  is one or more computer systems that generates, stores, distributes, and/or verifies authentication tokens  142 . In various embodiments, authentication computer system  140  is remote from computer system  110 , messaging computer system  120 , and/or user device  130 . Authentication computer system  140  is configured to send messages (including authentication token  142 ) to and receive messages from user device  130 . As discussed herein, in various embodiments, authentication computer system  140  is also configured to send messages to and receive messages from computer system  110 . 
     Authentication computer system  140  is configured to receive a token access request from different program  134  running on user device  130 . In such embodiments, the token access request is generated by different program  134  using a resource locator that was included in the authentication request  122  that was received by user device  130  via messaging program  132 . In various embodiments, authentication computer system  140  communicates with computer system  110  to enable computer system  110  to verify authentication token  142  (e.g., in a verification request  412  discussed with reference to  FIG. 4 ). 
     As discussed in further detail with reference to  FIG. 4 , computer system  110  sends an authentication request  112  to messaging computer system  120 . In turn, messaging computer system  120  sends authentication request  122  to message program  132  running on user device  130 . Authentication computer system  140  sends an authentication token  142  to user device  130 . In various embodiments, user device  130  receives the authentication token  142  using different program  134  (e.g., a web browser, a dedicated application), messaging program  132 , and/or another program (e.g., an operating system of user device  130 ). After accessing the authentication token  142 , messaging program  132  sends an indication  136  of the authentication token  142  to messaging computer system  120 . In turn, messaging computer system  120  relays the indication  136  to computer system  110 . Authentication request  112 , authentication request  122 , authentication token  142 , and indication  136  of authentication token  142  are discussed herein in further detail with reference to  FIG. 4 . 
     As discussed herein, the disclosed techniques enable first user  102  and second user  104  to communicate in a session  100  facilitated by messaging program  134  and messaging computer system  120  with second user  104  having assurance of first user&#39;s  102  identity. In such embodiments, because this assurance is an authentication token  142  received by user device  130  from authentication computer system  140  that user device  130  accessed using different program  134 , the information exchanged between user device  130  and authentication computer system  140  (e.g., the verification information  310  discussed in connection to  FIGS. 3 and 4 ) is not sent to messaging computer system  120 . Further, in embodiments where indication  136  includes an encrypted version of authentication token  142 , messaging computer system  120  similarly does not have access to the authentication token  142  either. 
     Referring now to  FIG. 2 , an expanded block diagram of the computer system  110  of  FIG. 1  is depicted in accordance with various embodiments. As shown in  FIG. 2 , computer system  110  includes customer service provider (CSP) system  200  and second user system  202 . While only one of each is shown in  FIG. 2 , it will be understood that computer system  110  may include a plurality of CSP systems  200  and a plurality of user systems  202  (e.g., a second user system  202 , a third user system [not shown], an nth user system [not shown]). Further, CSP system  200  and second user system  202  may each be implemented on a single computer system or multiple computer systems (e.g., implemented on a cloud or clouds). In various embodiments, computer system  110  does not include a CSP system  200 , but instead includes only second user system  202 . In such embodiments, second user system  202  performs the actions that are attributed herein to CSP system  200  (e.g., communicating with messaging computer system  120 ) as well as the actions attributed to second user system  202  (e.g., communicating with second user  104 , communicating with authentication computer system  140 ). 
     CSP system  200  is one or more computer systems that second user  104  utilizes (via second user system  202 ) to communicate with first user  102  in session  100 . In various embodiments, CSP system  200  is remote from messaging computer system  120 , user device  130 , authentication computer system  140 , and/or second user system  202 . CSP system  200  is configured to send messages to and receive messages from messaging computer system  120 . In various embodiments, second user  104  interacts with CSP system  200  via second user system  202 , but in some embodiments second user  104  interacts with CSP system  200  directly. For example, in some embodiments, the entity communicating with first user  102  on second user  202 &#39;s behalf is an agent or employee of a CSP company to which second user  104  has outsourced the task of communicating with first user  102  in session  100 . In various embodiments, CSP system  200  facilitates communication between second user system  202  and messaging computer system  120  including relaying authentication request  112  from second user system  202  to messaging computer system  120  and relaying indication  136  of authentication token  142  from messaging computer system  120  to second user system  202 . In various embodiments, however, the various steps relating to authentication of first user  102  within session  100  disclosed herein are performed by CSP system  200 . In such embodiments, second user  104  uses second user system  202  to communicate with first user  102  (e.g., to perform the customer service interactions relating to first user&#39;s  102  account with second user  104 ), but CSP system  200  generates authentication request  112  and verifies indication  136  to authenticate first user  102 . 
     Second user system  202  is one or more computer systems that second user  104  utilizes to communicate with first user  102  in session  100 . In various embodiments, second user system  202  is remote from messaging computer system  120 , user device  130 , authentication computer system  140 , and/or CSP system  200  (if present). Second user system  202  is configured to send messages to and receive messages from CSP system  200  (if present). Alternatively, second user system  202  is configured to send messages to and receive message from messaging computer system  120  if CSP system  200  is not present. 
     In various embodiments, second user system  202  (or CSP system  200  in embodiments where CSP system  200  verifies indication  136  to authenticate first user  102  in session  100 ), generates authentication request  112  and analyzes indication  136  to authenticate first user  102  in session  100 . As discussed in further detail in reference to  FIG. 4 , authentication request  112  includes an authentication request identifier (e.g., a unique alphanumeric or binary code associated with a particular authentication request  112 ) and a first cryptographic key  404  (e.g., a public key of a public-private key pair). Second user system  202  stores a second cryptographic key that corresponds to first cryptographic key  404  (e.g., the private key of the public-private key pair) that is useable to decrypt information encrypted using first cryptographic key  404 . In some of such embodiments, indication  136  received by second user system  202  includes authentication token  142  encrypted using the first cryptographic key  404  and an authentication request response identifier (e.g., a unique alphanumeric or binary code associated with a particular indication  136 ). In such embodiments, second user system  202  (or CSP system  200  in some embodiments) verifies the indication  136  by decrypting the encrypted authentication token  142  using the second cryptographic key that corresponds to the first cryptographic key  404  and determining that the authentication request response identifier corresponds to the authentication request identifier. 
     In some embodiments, the second user system  202  (or CSP system  200  in some embodiments) verifies the received indication  136  by sending a verification request  412  based on the indication  136  of the authentication token  142  received from user device  130  to authentication computer system  140 . In response to the verification request  412 , second user system  202  receives from authentication computer system  140  a second indication of the authentication token  142  that corresponds to the indication  136 . Second user system  202  analyzes the indication  136  and the second indication received in response to the verification request  412  to determine whether the indication  136  and second indication correspond to the same authentication token  142 . 
     Referring now to  FIG. 3 , an expanded block diagram of the user device  130  of  FIG. 1  is depicted in accordance with various embodiments. In various embodiments, user device  130  may be any of a number of computing devices including but not limited to a desktop computer, a laptop computer, a tablet computer, a smartphone, a mobile device, wearable computer (e.g., smartwatch, smart glasses), etc. As shown in  FIG. 3 , user device  130  includes messaging program  132 , different program  134 , and storage  300 . While only one of each is shown in  FIG. 3 , it will be understood that user device  130  may include more than one of all of these modules. 
     Messaging program  132  may be any of a number of programs useable to send and receive messages and keep them organized in one or more sessions  100 . In various embodiments, messaging program  132  is an instant messaging program that facilitates online chat using real-time text transmission over the Internet (e.g., the iMessage™ program distributed by Apple, Inc.™). In various embodiments, messaging program  132  is useable to send and receive text information, audio information, visual information, or a combination. In some embodiments, messaging program  132  is capable of having additional modules incorporated into it (e.g., apps installed on messaging program  132 ) that can provide additional functionality including but not limited to encrypting authentication token  142  as discussed herein, interfacing with one or more different programs  134 , securely storing one or more authentication tokens  142 , etc. In some embodiments, messaging program  132  is installed on user device  130  as a factory default, but in other embodiments messaging program  132  is installed on user device  130  by first user  102 . 
     Different program  134  is any of a number of programs running on user device  130  that are distinct from messaging program  132 . In some embodiments, different program  134  is a web browser or includes a web browser (e.g., different program  134  is the operating system of user device  130  that includes a built-in web browser). In such embodiments, causing different program  134  to access authentication token  142  from authentication computer system  140  includes using different program  134  to access the authentication computer system  140  using a resource locator included in authentication request  122 , sending verification information  310  received from first user  102 , and receiving authentication token  142  with different program  134 . For example, if different program  134  is (or includes) a web browser, the web browser access a resource locator (e.g., a URL) included in the authentication request  122  and loads a website downloaded using the resource locator. The web browser presents the website to first user  102  (e.g., using a user interface of user device  130 ), first user  102  inputs verification information  310  using the website, the web browser sends the verification information  310  to authentication computer system  140 , and then user device  130  received authentication token  142  with the web browser. After receiving authentication token  142 , in some embodiments different program  134  sends authentication token  142  to storage  300  as discussed herein. In other embodiments, different program  134  send authentication token  142  to messaging program  132  which prepares the indication  136  and user device  130  does not retain authentication token  142  thereafter. 
     In other embodiments, different program  134  is a dedicated application associated with second user  104  (e.g., if second user  104  is ABC Corp., different program  134  is the ABC Corp. App). In some of such embodiments, first user  102  has already logged into the dedicated application (e.g., using verification information  310  from first user  102 ) and the dedicated application has already received authentication token  142  and stored it in storage  300 . In such embodiments, causing the different program  134  to access authentication token  142  received from authentication computer system  140  includes accessing storage  300  and retrieving authentication token  142 . In some of such embodiments, the dedicated application is associated with a digital distribution platform (e.g., Apple, Inc.&#39;s App Store™, the Google Play™ store, Microsoft Inc&#39;s Windows App Store™). In such embodiments, the digital distribution platform stores information that associates the various applications available for download with the entity or entities that own, maintain, or run the applications. For example, when different program  134  is a dedicated application that is associated with second user  104 , the digital distribution platform stores information reflecting that association. In such embodiments, as part of the authentication process discussed herein the dedicated application (or other module of user device  130 ) sends a request to the digital distribution platform to verify that the dedicated application is associated with second user  104 . 
     In other instances, first user  102  has not already logged into the dedicated application and user device  130  has not already received authentication token  142 . In some of such instances, the dedicated application accesses authentication computer system  140  to request authentication token  142  as discussed herein. In such embodiments, user device  130  receives verification information from first user  102  (e.g., via the dedicated application or another program), the dedicated application sends the verification information to authentication computer system  140 , and in response to receiving the appropriate verification information  310 , authentication computer system  140  sends authentication token  142  to the dedicated application. In other embodiments, if first user  102  has not already logged into the dedicated application and has not already received authentication token  142 , user device  130  causes a second different program  134  (not shown) that includes a web browser to request and receive authentication token  142  as discussed herein. 
     Storage  300  is any of a number of storage hardware components and software to manage the hardware. Storage  300  may be a single hardware memory, or it may be a plurality of memories distributed throughout user device  130 . In various embodiments, storage  300  stores one or more cryptographic keys  302 . In various embodiments, one cryptographic key  302  is used to encrypt and decrypt communication between user device  130  and messaging computer system  120  as discussed herein. In some embodiments, another cryptographic key  302  is the cryptographic key  404  that user device  130  received in authentication request  122  and that is useable to encrypt authentication token  142  before it is included in indication  136  as discussed herein. In various embodiments, after authentication token  142  has been received from the authentication computer system  140 , storage  300  stores authentication token  142 . In some of such embodiments, messaging program  132  accesses storage  300  to access authentication token  142  before sending the indication  136  to the messaging computer system  120 . Further, in some embodiments, storage  300  retains authentication token  142  to use in response to subsequent authentication requests  122 . In various embodiments, storage  300  stores authentication token  142  in a password manager of user device  130 . As discussed herein, the password manager may be secured such that verification information  310  from first user  102  is necessary to unlock stored authentication token  142 . 
     In various embodiments, user device  130  receives verification information  310  from first user  102 . Such verification information  310  may be any of a number of types of information and may be received via any of a number of interfaces. For example, in some embodiments verification information  310  includes a username and password associated with an account of first user  102  (e.g., an account with second user  104 ). Such verification information  310  may be received by different program  134  (e.g., via a website when different program  134  is a web browser). In other embodiments, verification information  310  includes biometric information (e.g., a thumbprint of first user  102 , a retinal scan of first user  102 , a facial scan of first user  102 ) received by an appropriate input device. In other embodiments verification information  310  is a voice print of first user  102 . In some embodiments, verification information  310  includes information about user device  130  (e.g., a unique identifier associated with the user device  130 , the model of user device  130 , the serial number of user device  130 , etc.). In some embodiments, some verification information  310  (e.g., a username and password) is stored in a password manager of user device  130  and this stored verification information  310  is unlocked upon receipt by user device  130  of other verification information  310  (e.g., biometric information). This unlocked, stored verification information  310  may then be sent to authentication computer system  140  as discussed herein. However, no biometric information received from first user  102  is sent from user device  130  to authentication system  140  or to any other computer system. In some embodiments, the verification information  310  that is sent to authentication computer system  140  as discussed herein is derived from verification information  310  input by first user  102 . For example, the verification information  310  that is sent to authentication computer system  140  may be a hash or encrypted version of the verification information  310  input by first user  102 . In embodiments where biometric information is received from user  102 , verification information  310  sent to authentication system  140  includes a result of a biometric authentication (e.g., a comparison of an received thumbprint of first user  102  to a stored thumbprint of first user  102 ) but not such biometric information itself. 
     Accordingly, user device  130  is configured to facilitate communication between first user  102  and second user  104  via messaging program  132  within session  100 . Moreover, according to the disclosed embodiments, in order to ensure the security of sensitive information, computer system  110  is able to request authentication of first user&#39;s  102  identity via messaging program  132 . In response, user device  130  is able to provide the requested authentication (e.g., indication  136  of authentication token  142 ) to computer system  110  and thereby verify first user&#39;s  102  identity via messaging program  132  without exchanging verification information  310  with messaging program  132 . Because communication over messaging program  132  flows through one or more intermediary computer systems (e.g., messaging computer system  120 , CSP system  200 ) exchanging verification information  310  over messaging program  132  may present security risks. This may especially be the case if the architecture of messaging computer system  120  puts constraints on how and whether information flowing between computer system  110  and messaging computer system  120  may be encrypted. Further, such architecture of messaging computer system  120  may, for example, prevent computer system  110  from using end-to-end encryption to communicate with user device  130 . Accordingly, information exchanged between computer system  110  and user device  130  may be accessible by intermediate computer systems (e.g., messaging computer system  120 , CSP system  200 ). Various embodiments disclosed here, however, allow computer system  110  and user device  130  to communicate using messaging program  132  and the intermediary computer systems without exposing either verification information  310  (because such information is sent to authentication computer system  140  rather than via messaging program  132 ) or authentication token  142  (because authentication token  142  is encrypted with, for example, a cryptographic key  404  included in authentication requests  112 ,  122 ). 
     Referring now to  FIG. 4 , a flowchart showing the various communications between the various components shown in  FIG. 1  as part of session  100  between first user  102  and second user  104  is depicted in accordance with various embodiments. Computer system  110 , messaging computer system  120 , user device  130 , and authentication computer system  140  send each other various communications as shown in  FIG. 4  as part of authenticating first user  102  in session  100 . 
     In various embodiments, the authentication process begins when computer system  110  receives an indication  402  to start the authentication process. The indication  402  may be received as a result of a predefined business process. For example, during session  100 , if first user  102  makes a request that relates to sensitive information (e.g., a bank balance, a record of a previously made order for goods, personal profile information, etc.), the business process may require authentication of the first user  102  before allowing that sensitive information to be communicated during session  100 . In other embodiments, second user  104  has discretion to decide whether or when first user  102  should be authenticated, and in such embodiments, second user  104  sends indication  402  to computer system  110  when second user  104  determines to do so. 
     After receiving indication  402 , computer system  110  sends authentication request  112  to messaging computer system  120 . In various embodiments, authentication request  112  includes various pieces of information including but not limited to an identifier associated with session  100 , an authentication request identifier (e.g., a unique alphanumeric or binary code associated with a particular authentication request  112 ), a first cryptographic key  404  (e.g., a public key of a public-private key pair, and/or a type of requested authentication token (e.g., a token defined according to an authentication standard such as the OAuth 1.0 or OAuth 2.0 standards). In various embodiments, authentication request  112  includes a resource locator (e.g., a URL) useable to direct different program  134  to authentication computer system  140 . 
     After receiving authentication request  112 , messaging computer system  120  sends authentication request  122  to user device  130 . In various embodiments, authentication request  122  is identical to authentication request  112 . But in other embodiments, authentication request  122  is a modified version of authentication request  112  that may, for example, have a different format, be sent using a different communication protocol, include additional information (e.g., an identifier associated with second user  104 , a time stamp, etc.), and/or be encrypted according to a cryptographic protocol used to secure communication between messaging computer system  120  and user device  130 . 
     In various embodiments, messaging computer system  120  uses one or more cryptographic protocols to secure communication between messaging computer system  120  and computer system  110  and/or user device  130 . In some of such embodiments, communications between messaging computer system  120  and messaging program  132  running on user device  130  is encrypted according to a first cryptographic protocol. In such embodiments, each of messaging computer system  120  and user device  130  store cryptographic keys useable to encrypt sent communications and decrypt received communications. In various embodiments, the first cryptographic protocol may be established before session  100  is initiated (e.g., by messaging computer system  120  and user device  130  exchanging corresponding cryptographic keys during a setup of messaging program  132  subsequent to installation on user device  130 ) or as session  100  is initiated (e.g., by messaging computer system  120  and user device  130  exchanging corresponding cryptographic keys at the beginning of session  100 ). The first cryptographic protocol secures communication between messaging computer system  120  and user device  130  such that other computer systems cannot access the secured communication (or cannot access the shared communication without substantial effort and/or time). In contrast, however, in embodiments where the indication  136  of authentication token  142  includes authentication token  142  encrypted according to a second cryptographic protocol, messaging computer system  120  does not store a cryptographic key useable to decrypt encrypted authentication token  142 . Thus, in such embodiments, the messaging computer system  120  is not configured to access encrypted authentication token  142 . 
     After receiving authentication request  122 , user device  130  interacts with first user  102  via one or more interactions  406 . In various embodiments, these interactions  406  include causing messaging program  132  to display on a user interface of user device  130  information indicative of the authorization request  122  (e.g., an icon displayed in messaging program  132 ), an indication of whether authentication token  142  has been received, and/or whether first user  102  has been authenticated within session  100 . In various embodiments, the one or more interactions  406  include prompts to first user  102  to enter verification information  310  to be sent to authentication computer system  140  as discussed herein. 
     During the authentication process, user device  130  and authentication computer system  140  exchange one or more communications  408 . In various embodiments, these communications  408  include verification information  310  sent by user device  130  to authentication computer system  140  during the authentication process and a message containing authentication token  142 . Various other communications  408  may be exchanged during the authentication process including but not limited to, access requests from user device  130  to authentication computer system  140 , locators (e.g., URLs) sent by authentication computer system  140  to user device  130 , website information (e.g., html files) communicated between user device  130  and authentication computer system  140 , etc. 
     In some embodiments, different program  134  sends a token access request to authentication computer system  140 . In response to the token access request, authentication computer system  140  sends a verification request to the different program  134  requesting verification information  310  for authentication computer system  140  to use to determine whether to send an authentication token  142  to user device  130 . For example, in embodiments where different program  134  is a web browser the verification request includes information useable by the web browser to cause a verification website to be displayed to first user  102  (e.g., on a user interface of user device  130 ). In such embodiments, verification information  310  is received via the verification website. 
     In response to communications  408  from user device  130  and/or receiving verification information  310  from user device  130 , authentication computer system  140  performs an authentication process  410  to determine whether to send authentication token  142  to user device  130 . In response to determining to send authentication token  142 , authentication computer system  140  sends authentication token  142  to user device  130 . Authentication token  142  is useable by messaging program  132  to authenticate first user  102  of user device  130  within session  100 . It will be understood that authentication can be provided using one or more what are known as factors of authentication: (a) knowledge factors (e.g., something the user knows like a password), (b) ownership factors (e.g., something the user has like a security token), and (c) inherence factors (e.g., something the user is or does like a biometric identifier). Authentication token  142  may be any of a number of type (b) ownership factors that are electronically transferable from authentication computer system  140  to user device  130  (e.g., a software token). As discussed here, verification information  310  received from first user  102  may be a type (a) knowledge factor (e.g., a username and password) and/or a type (c) inherence factor (e.g., a facial scan). Accordingly, in various embodiments, the authentication techniques discussed herein are multi-factor (e.g., because they use more than one type of authentication factor). In various embodiments, authentication token  142  is a software token generated using a shared secret algorithm. In other embodiments, authentication token  142  is a software token generated using public-key cryptography. In various embodiments, authentication computer system  140  sends authentication token  142  in an encrypted form (e.g., encrypted using cryptographic key  404 ) and may be transmitted along with additional information. In various embodiments, user device  130  receives authentication token  142  via the different program  134  that is used to request the authentication token  142 , but in other embodiments authentication token  142  is received via another module of user device  130 . 
     After receiving authentication token  142 , user device  130  sends an indication  136  of authentication token  142  to messaging computer system  120 . In various embodiments, indication  136  includes authentication token  142  along with additional information such as a response identifier that corresponds to the request identifier included in the authentication request  122 . In various embodiments, indication  136  includes the authentication token  142  encrypted using cryptographic key  404  that was included in authentication request  122 . 
     In some embodiments discussed above in connection to  FIG. 2 , computer system verifies the received indication  136  by sending a verification request  412  based on the indication  136  to authentication computer system  140 . In response to the verification request  412 , authentication computer system  140  sends a second indication of the authentication token  142  that corresponds to the indication  136  to computer system  110 . Computer system  110  analyzes the indication  136  and the second indication received in response to the verification request  412  to determine whether the indication  136  and second indication correspond to the same authentication token  142 . 
     In various embodiments, messaging computer system  120  receives an indication  414  from computer system  110  of whether first user  102  has been authentication in session  100  (e.g., an indication showing that indication  136  has been received by computer system  110  and verified as discussed herein). In various embodiments, messaging computer system  120  sends to messaging program  132  running on user device  130  the indication  414  of whether first user  102  has been authenticated in session  100 . Further, in some embodiments, a second user device (not shown) is also associated with first user  102 , and in some of such embodiments, messaging computer system  120  also sends to the second user device an indication (not shown) of whether first user  102  has been authentication in session  100 . In some of such embodiments, this indication does not include the authentication token  142  (either in encrypted or unencrypted form). 
     In various embodiments, computer system  110  sends an audit request  416  to messaging computer system  120  to determine whether messaging computer system  120  accessed the authentication token  142 . In embodiments where the indication  136  includes an encrypted version of authentication token  142 , for example, the audit request  416  may request information showing that the encrypted authentication token  142  was not decrypted by messaging computer system  120  or another computer system on the transmission path (e.g., the encrypted authentication token  142  in the indication  136  received by messaging computer system matches the encrypted authentication token  142  received by computer system  110 ). Similarly, in various embodiments authentication computer system  140  sends an audit request  418  to messaging computer system  120  determine whether messaging computer system  120  accessed the authentication token  142 . In such embodiments, in response to either or both audit request  416  and audit request  418 , messaging computer system  120  responds to the requesting computer system by sending information showing that the encrypted authentication token  142  was not decrypted by messaging computer system  120 . 
     Thus, in various embodiments disclosed herein, computer system  110  requests authentication from user device  130 , receives authentication information (e.g., the indication  136 ) that user device  130  received from authentication computer system  140 , and authenticates first user  102  in session  100 . In one example according to the disclosed embodiments, Charles (a first user  102 ) uses his smartphone (e.g., a user device  130 ) to communicate with XYZ, Inc. (a second user  104 ) about his medical records using a messaging program  132  stored on the smartphone. Before XYZ, Inc. discloses sensitive medical information, XYZ, Inc. asks Charles to perform an authentication process and sends an authentication request  112  via the messaging program  132 . Charles accesses the received authentication request  122  (e.g., by tapping an icon on the smartphone&#39;s user interface), which launches a web browser (e.g., a different program  134 ) that loads a website from an address pointed to be a locator that was included in received authentication request  122 . Charles logs into the website, verifies his identity (e.g., with a username and password), and his smartphone receives authentication token  142 . The smartphone in turn sends indication  136  of the received authentication token  142  to XYZ, Inc. via messaging program  132 . Upon receiving indication  136  and using it to authenticate Charles in the session  100 , XYZ, Inc. sends the requested medical information to Charles&#39;s smartphone. 
     In another embodiment, Penelope (a first user  102 ) uses her tablet computer (e.g., a user device  130 ) to communicate with ABC Corp. (a second user  104 ) about her bank account using a messaging program  132  stored on the tablet computer. Penelope&#39;s tablet computer also has the ABC Corp. application (e.g., a different program  134 ) installed on it, and Penelope is currently logged into the ABC Corp. application. Before ABC Corp. discloses sensitive financial information, ABC Corp. asks Penelope to perform an authentication process and sends an authentication request  112  via the messaging program  132 . Penelope accesses the received authentication request  122  (e.g., by giving a verbal command to a personal assistant program running on her tablet computer) which causes the tablet computer to access the ABC Corp. application. Having logged in previously and received an authentication token  142  from authentication computer system  140 , the ABC Corp. application accesses the authentication token  142  in storage  300  and passes it to the messaging program  132 . Messaging program  132  sends indication  136  of the previously-received authentication token  142  to ABC Corp. via messaging program  132 . Upon receiving indication  136  and using it to authenticate Penelope in the session  100 , ABC Corp. sends the requested financial information to Penelope&#39;s tablet computer. 
       FIGS. 5, 6, 7, and 8  illustrate various flowcharts representing various disclosed methods implemented with the components depicted in  FIG. 1 . Referring now to  FIG. 5 , a flowchart illustrating an embodiment of an authentication method  500  is shown. In various embodiments, the various actions associated with method  500  are performed by user device  130 . At block  502 , user device  130  runs messaging program  132  that facilitates session  100  between first user  102  of the user device  130  and second user  104  of a remote computer system  110 . As discussed herein, in various embodiments, session  100  includes text communication. At block  504 , user device  130  receives via messaging program  134  authentication request  122  within session  100 . At block  506 , in response to authentication request  122 , user device  130  causes different program  134  running on the user device  130  to access authentication token  142  from authentication computer system  140 . At block  508 , after accessing authentication token  142 , user device  130  sends, to remote computer system  110  using messaging program  132 , indication  136  of authentication token  142 . As discussed herein, in various embodiments, authentication token  142  is usable by remote computer system  110  to authenticate first user  102  within the session  100 . 
     Referring now to  FIG. 6 , a flowchart illustrating an embodiment of an authentication method  600  is shown. In various embodiments, the various actions associated with method  600  are performed by messaging computer system  120 . At block  602 , messaging computer system  120  stores an indication of session  100  between first user  102  of user device  130  and second user  104  of remote computer system  110 . As discussed herein, in various embodiments, session  100  includes text communication between remote computer system  110  and messaging program  132  running on user device  130 . At block  604 , messaging computer system  120  receives, from remote computer system  110 , first authentication request  112  to authenticate first user  102  in session  100 . At block  606 , messaging computer system  120  sends second authentication request  122  to messaging program  132  running on user device  130 . At block  608 , messaging computer system  120  receives from messaging program  132  indication  136  of authentication token  142  that user device  130  received from authentication computer system  140 . At block  610 , messaging computer system  120  sends to remote computer system  110  indication  136  of authentication token  142 . At block  612 , messaging computer system  120  sends to messaging program  132  an indication of whether first user  102  has been authenticated in session  100 . 
     Referring now to  FIG. 7 , a flowchart illustrating an embodiment of an authentication method  700  is shown. In various embodiments, the various actions associated with method  700  are performed by computer system  110 . At block  702 , computer system  110  stores an indication of session  100  between first user  102  of remote user device  130  and second user  104  of computer system  110 . As discussed herein, in various embodiments, session  100  includes text communication between computer system  110  and messaging program  132  running on remote user device  130 . At block  704 , computer system  110  sends, to remote user device  130  via messaging program  132 , authentication request  112  to authenticate first user  102  within session  100 . At block  706 , computer system  110  receives, from remote user device  130  via messaging program  132 , indication  136  of authentication token  142  that user device  130  received from authentication computer system  140 . At block  708 , computer system  110  verifies indication  136  of authentication token  142  to authenticate first user  102  within session  100 . 
     In various embodiments, the authentication request  112  includes an authentication request indicator and a first cryptographic key  404 ; the indication  136  of the authentication token  142  includes the authentication token  142  encrypted using the first cryptographic key  404  and an authentication request response indicator; and verifying the indication  136  of the authentication token  142  includes: decrypting the authentication token  142  using a second cryptographic key that corresponds to the first cryptographic key  404 ; and determining that the authentication request response identifier corresponds to the authentication request identifier. In various embodiments, verifying the indication  136  of the authentication token  142  includes: sending, from the computer system  110  to the authentication computer system  140 , a verification request  412  based on the indication  136  of the authentication token  142  received from the remote user device  130 ; receiving, at the computer system  110  from the authentication computer system  140 , a second indication of the authentication token  142 , wherein the second indication corresponds to the indication  136  of the authentication token  142  that the authentication computer system  140  sent to the remote user device  130 ; and analyzing the indication  136  of the authentication token  142  received from the remote user device  130  and the second indication of the authentication token  142  to determine that the indication  136  and the second indication correspond to the same authentication token  142 . 
     Referring now to  FIG. 8 , a flowchart illustrating an embodiment of an authentication method  800  is shown. In various embodiments, the various actions associated with method  800  are performed by authentication computer system  140 . At block  802 , authentication computer system  140  receives, from user device  130  running messaging program  132  and different program  134 , a token access request from different program  134 . In such embodiments, the token access request is generated by different program  134  using a resource locator that was included in authentication request  122  received by user device  130  via messaging program  132 . At block  804 , authentication computer system  140  receives from user device  130  verification information  310  from user device  130 . At block  806 , in response to receiving verification information  310 , authentication computer system  140  sends to user device  130  authentication token  142  that is useable by messaging program  132  to authenticate first user  102  of user device  130  within session  100  between first user  102  and second user  104  of remote computer system  110 . 
     In various embodiments, authentication method  800  further comprises: receiving, at the authentication computer system  140  from the remote computer system  110 , a verification request  412  associated with the authentication token  142 ; and in response to the verification request  412 , sending, from the authentication computer system  140  to the remote computer system  110 , an indication of the authentication token  142  sent to the user device  130 . In various embodiments, authentication method  800  further comprises: in response to the token access request, sending a verification request from the authentication computer system  140  to the different program  134 ; wherein the different program  134  comprises a web browser, the verification request includes information useable by the web browser to cause a verification website to be displayed to the first user  102 , and the verification information  310  is received via the verification website. In various embodiments, the different program  134  is a dedicated application associated with the second user  104 , the verification information  310  is received via the dedicated application, and sending the authentication token  142  to the user device  130  includes sending the authentication token  142  to the dedicated application. 
     Referring now to  FIG. 9 , a series of exemplary user device  130  user interface screens  900 ,  902 ,  904 , and  906  showing certain portions of the authentication process discussed herein are shown. In the user interface screens shown in  FIG. 9 , first user  102  is using a user device  130  that is a smartphone, second user  104  is ABC Corp., and first user  102  is communicating with ABC Corp. about something triggers ABC Corp. to request authentication of first user&#39;s  102  identity. Screen  900  shows session  100  between first user  102  and second user  104  communicated via messaging program  132 . Second user  104  thanks first user  102  for contacting ABC Corp. First user  102  asks for help (e.g., help with an order for goods, help with accessing a bank account, etc.). As a result, second user  104  requests that first user  102  sign into ABC Corp. and sends an authentication request  112 / 122  with a locator (shown as the “Sign In” button that when activated will launch a web browser and cause the web browser to access the ABC Corp. website). Upon first user  102  activating the “Sign In” button, user device  130  displays screen  902  which depicts an ABC Corp. website with fields for first user&#39;s  102  username and password. Alternatively, user device  130  displays screen  904  which depicts the ABC Corp. website with the same username and password fields, but with an additional icon prompting first user  102  to identify himself by facial scan as discussed herein. Upon a successful facial scan, user device  130  accesses a password manager (e.g., a module of storage  300 ) storing first user&#39;s  102  username and password and automatically fills in the username and password. Alternatively, information indicative of the facial scan itself may be transmitted to the ABC Corp. website. After successfully logging into ABC Corp&#39;s website and receiving authentication token  142  as discussed herein, user device  130  displays screen  906  showing that first user  102  has signed into ABC Corp. and that first user  102  has been authenticated within session  100 . This screen  906  results from user device  130  sending indication  136  to computer system  110  via messaging computer system  120  as discussed herein. 
     Exemplary Computer System 
     Turning now to  FIG. 10 , a block diagram of an exemplary computer system  1000 , which may implement the various components of computer system  110 , messaging computer system  120 , user device  130 , and/or authentication computer system  140  is depicted. Computer system  1000  includes a processor subsystem  1080  that is coupled to a system memory  1020  and I/O interfaces(s)  1040  via an interconnect  1060  (e.g., a system bus). I/O interface(s)  1040  is coupled to one or more I/O devices  1050 . Computer system  1000  may be any of various types of devices, including, but not limited to, a server system, personal computer system, desktop computer, laptop or notebook computer, mainframe computer system, tablet computer, handheld computer, workstation, network computer, a consumer device such as a mobile phone, music player, or personal data assistant (PDA). Although a single computer system  1000  is shown in  FIG. 10  for convenience, system  1000  may also be implemented as two or more computer systems operating together. 
     Processor subsystem  1080  may include one or more processors or processing units. In various embodiments of computer system  1000 , multiple instances of processor subsystem  1080  may be coupled to interconnect  1060 . In various embodiments, processor subsystem  1080  (or each processor unit within  1080 ) may contain a cache or other form of on-board memory. 
     System memory  1020  is usable to store program instructions executable by processor subsystem  1080  to cause system  1000  perform various operations described herein. System memory  1020  may be implemented using different physical memory media, such as hard disk storage, floppy disk storage, removable disk storage, flash memory, random access memory (RAM—SRAM, EDO RAM, SDRAM, DDR SDRAM, RAMBUS RAM, etc.), read only memory (PROM, EEPROM, etc.), and so on. Memory in computer system  1000  is not limited to primary storage such as memory  1020 . Rather, computer system  1000  may also include other forms of storage such as cache memory in processor subsystem  1080  and secondary storage on I/O Devices  1050  (e.g., a hard drive, storage array, etc.). In some embodiments, these other forms of storage may also store program instructions executable by processor subsystem  1080 . 
     I/O interfaces  1040  may be any of various types of interfaces configured to couple to and communicate with other devices, according to various embodiments. In one embodiment, I/O interface  1040  is a bridge chip (e.g., Southbridge) from a front-side to one or more back-side buses. I/O interfaces  1040  may be coupled to one or more I/O devices  1050  via one or more corresponding buses or other interfaces. Examples of I/O devices  1050  include storage devices (hard drive, optical drive, removable flash drive, storage array, SAN, or their associated controller), network interface devices (e.g., to a local or wide-area network), or other devices (e.g., graphics, user interface devices, etc.). In one embodiment, computer system  1000  is coupled to a network via a network interface device  1050  (e.g., configured to communicate over WiFi, Bluetooth, Ethernet, etc.). 
     Although specific embodiments have been described above, these embodiments are not intended to limit the scope of the present disclosure, even where only a single embodiment is described with respect to a particular feature. Examples of features provided in the disclosure are intended to be illustrative rather than restrictive unless stated otherwise. The above description is intended to cover such alternatives, modifications, and equivalents as would be apparent to a person skilled in the art having the benefit of this disclosure. 
     The scope of the present disclosure includes any feature or combination of features disclosed herein (either explicitly or implicitly), or any generalization thereof, whether or not it mitigates any or all of the problems addressed herein. Accordingly, new claims may be formulated during prosecution of this application (or an application claiming priority thereto) to any such combination of features. In particular, with reference to the appended claims, features from dependent claims may be combined with those of the independent claims and features from respective independent claims may be combined in any appropriate manner and not merely in the specific combinations enumerated in the appended claims. 
     Various embodiments described herein may gather and/or use data available from specific and legitimate sources to improve the delivery to users of invitational content or any other content that may be of interest to them. The present disclosure contemplates that, in some instances, this gathered data may include personal information data that uniquely identifies or can be used to identify a specific person. Such personal information data can include demographic data, location-based data, online identifiers, telephone numbers, email addresses, home addresses, data or records relating to a user&#39;s health or level of fitness (e.g., vital signs measurements, medication information, exercise information), date of birth, or any other personal information. 
     The present disclosure recognizes that the use of such personal information data, in the present technology, can be used to the benefit of users. For example, the personal information data can be used to deliver targeted content that may be of greater interest to the user in accordance with their preferences. Accordingly, use of such personal information data enables users to have greater control of the delivered content. Further, other uses for personal information data that benefit the user are also contemplated by the present disclosure. For instance, health and fitness data may be used, in accordance with the user&#39;s preferences to provide insights into their general wellness, or may be used as positive feedback to individuals using technology to pursue wellness goals. 
     The present disclosure contemplates that those entities responsible for the collection, analysis, disclosure, transfer, storage, or other use of such personal information data will comply with well-established privacy policies and/or privacy practices. In particular, such entities would be expected to implement and consistently apply privacy practices that are generally recognized as meeting or exceeding industry or governmental requirements for maintaining the privacy of users. Such information regarding the use of personal data should be prominently and easily accessible by users, and should be updated as the collection and/or use of data changes. Personal information from users should be collected for legitimate uses only. Further, such collection/sharing should occur only after receiving the consent of the users or other legitimate basis specified in applicable law. Additionally, such entities should consider taking any needed steps for safeguarding and securing access to such personal information data and ensuring that others with access to the personal information data adhere to their privacy policies and procedures. Further, such entities can subject themselves to evaluation by third parties to certify their adherence to widely accepted privacy policies and practices. In addition, policies and practices should be adapted for the particular types of personal information data being collected and/or accessed and adapted to applicable laws and standards, including jurisdiction-specific considerations which may serve to impose a higher standard. For instance, in the US, collection of or access to certain health data may be governed by federal and/or state laws, such as the Health Insurance Portability and Accountability Act (HIPAA); whereas health data in other countries may be subject to other regulations and policies and should be handled accordingly. 
     Despite the foregoing, the present disclosure also contemplates embodiments in which users selectively block the use of, or access to, personal information data. That is, the present disclosure contemplates that hardware and/or software elements can be provided to prevent or block access to such personal information data. For example, in the case of advertisement delivery services, the present technology can be configured to allow users to select to “opt in” or “opt out” of participation in the collection of personal information data during registration for services or anytime thereafter. In another example, users can select not to provide mood-associated data for targeted content delivery services. In yet another example, users can select to limit the length of time mood-associated data is maintained or entirely block the development of a baseline mood profile. In addition to providing “opt in” and “opt out” options, the present disclosure contemplates providing notifications relating to the access or use of personal information. For instance, a user may be notified upon downloading an app that their personal information data will be accessed and then reminded again just before personal information data is accessed by the app. 
     Moreover, it is the intent of the present disclosure that personal information data should be managed and handled in a way to minimize risks of unintentional or unauthorized access or use. Risk can be minimized by limiting the collection of data and deleting data once it is no longer needed. In addition, and when applicable, including in certain health related applications, data de-identification can be used to protect a user&#39;s privacy. De-identification may be facilitated, when appropriate, by removing identifiers, controlling the amount or specificity of data stored (e.g., collecting location data at city level rather than at an address level), controlling how data is stored (e.g., aggregating data across users), and/or other methods such as differential privacy. 
     Therefore, although the present disclosure may broadly cover use of personal information data to implement one or more various disclosed embodiments, the present disclosure also contemplates that the various embodiments can also be implemented without the need for accessing such personal information data. That is, the various embodiments of the present technology are not rendered inoperable due to the lack of all or a portion of such personal information data. For example, content can be selected and delivered to users based on aggregated non-personal information data or a bare minimum amount of personal information, such as the content being handled only on the user&#39;s device or other non-personal information available to the content delivery services.

Metadata:
Filing Date: 20181214
Publication Date: 20210309
Grant Date: 20210309
Priority Date: 20180603
Inventors: MAHAJAN, MAYUR P.
THIRUMALAI, GOKUL P.
LOPATIN, SCOTT
ROCHETTE, Tommy
LOH, ROBERT Y.
SIERRA, YANNICK L.
Assignee: APPLE INC
CPC Classifications: [{"code": "H04L2209/80", "inventive": false, "first": false, "tree": "[]"}, {"code": "H04L51/046", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/3226", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/0822", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L51/18", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L63/0807", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/3213", "inventive": true, "first": true, "tree": "[]"}, {"code": "H04L9/3213", "inventive": true, "first": true, "tree": "[]"}, {"code": "H04L63/0861", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/3215", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/3226", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/3213", "inventive": true, "first": true, "tree": "[]"}, {"code": "H04L51/046", "inventive": true, "first": false, "tree": "[]"}, {"code": "H04L9/0822", "inventive": true, "first": false, "tree": "[]"}]
Family ID: 68693323