1. Session and Security Management

2. HTTP Cookies

3. Cookies Cookies are a general mechanism that server-side applications can use to both store and retrieve long-term information on the client side Servers send cookies in the HTTP response and browsers are expected to save and to send the cookie back to the Server, whenever they make additional requests from the Server

4. Cookie Transportation Web browser Web server request response put cookie...

5. Cookie Transportation Web server response request Cookie:... Web browser An Example

6. Cookie Format A cookie in a response header: Set-Cookie: NAME=VALUE; expires=DATE; path=PATH; domain=DOMAIN_NAME; secure -Only the NAME field is required A cookie in a request header: Cookie: NAME1=VALUE1; NAME2=VALUE2; NAME3=VALUE3... -This header contains all matching stored cookies

7. Cookie Properties NAME=VALUE : the content of the cookie -should not contain semi-colons, commas or white-spaces expires=DATE : expiration date -default is the session life time path=PATH : the paths for which the cookie is valid -matches every path that begins with PATH domain=DOMAIN_NAME : the cookie’s domain -matches every domain that ends with DOMAIN_NAME secure : send only through secure channels (i.e., https)

8. Notes about Cookies A response may contain multiple cookies A Cookie overrides previous cookies with the same path and name If no path and domain are given, then they are assumed to be those of the requested URL The Cookie header of a request contains all mappings that match the requested URL A server can delete a cookie by sending a new one with the same path and name, but with expiry date in the past

9. Session Management

10. HTTP is Stateless HTTP is a stateless protocol -Individual requests are treated independently -Without external support, one cannot tell whether an HTTP request is part of a continuing interaction between the client and the server BUT some Web applications have states! -Online stores that maintain a shopping cartOnline stores -Portals that remember your name and preferences

11. HTTP Sessions The solution: Client and Server transfer some unique data in the course of a session A session captures the notion of a continuous interaction between a server and a client -For example, a series of requests and responses between IE and Tomcat with short intervals between them End users should be oblivious to session management Session management should be efficient -Is it reasonable to send the whole shopping cart on every request to Amazon.com?

12. Session Supporting Servers A server that supports sessions holds session-specific data in an internal data structure (session object) -For example, the content of the shopping cart On the first request, the server initializes the session object and sends to the client a unique identifier for this object During the session, the client attaches this identifier to every request to the server

13. Session Management Methods How is the session key shared between the client and the server? We will discuss two methods that Servlet containers (i.e., Tomcat) support: 1.Session Cookies 2.URL rewriting

14. Session Cookies In the response to the first request of a session, the server puts a cookie, which contains a session identifier When the client sends subsequent requests, it also sends the cookie The client sends the cookie as long as the requests are within its session bound (e.g., the same browser process) The server treats the cookie as a valid identifier as long as the requests are within its session bound (e.g., a short time period passed since the last request)

15. Session Cookies Session cookies are simply a special kind of cookies The time boundary of session cookies is based on the session and not on an explicit date -This is the default expiration time Actual session data is kept on the server (while the session cookie holds only an identifier of the session)

16. Session Cookies Web browser 1 Web server request Servlet id 1 response put cookie id 1 response Create Session id 1

17. Session Cookies Web browser 2 Web server request Servlet id 1 response put cookie id 2 response Create Session id 2

18. Session Cookies Web server request Servlet id 1 response request Cookie: id 1 id 2 Session read/write Web browser 1 id 1

19. Session Cookies Web server request Servlet id 1 response request Cookie: id 2 id 2 Session read/write Web browser 2 id 2

20. sessionId list

21. URL Rewriting Web browsers may refuse to save cookies -Can you think of reasons? Therefore, some servers (like Servlet containers) support session management through URL rewriting Instead of passing the session identifier in a cookie, the identifier is concatenated to the request URL All links in a page should contain the session id -Hence, these links are dynamically created Session management is thus oblivious to users

22. URL Rewriting Web browser Web server request Servlet id 1 response Create Session … …

23. URL Rewriting Web server request Servlet id 1 response request (no cookie) id 2 Session read/write Web browser 1 GET servletURL;sessID=id 1 HTTP/1.0 … …

24. Session Duration A session ends in either one of the following cases: The server invalidates the session -Required explicitly, e.g., a user logs out, or -The session was inactive for a long time The client stops cooperating -Session cookies have expired, e.g., the browser runs in a new process -External links are used instead of rewritten ones

25. Configuring Sessions in Tomcat In Tomcat (and other Servlet containers), you can specify the session timeout (in minutes) in the application's web.xml If the timeout is 0 or negative, then sessions never end (on the server side) 10 web.xml

26. Security Management in Web Applications

27. We all know this page...

28. Would we want all to know this page?

29. Problem Want to restrict access to certain Web pages Must answer the following questions -Which pages should be restricted? -Who should access restricted pages? -How should users be authenticated? -Should authentication data be encrypted?

30. Authentication Methods Several authentication methods are used: Declarative Security -HTTP-level mechanisms Basic authentication scheme Digest access authentication scheme -Server-level mechanisms Programmatic Security

31. HTTP Basic Mechanism In the basic authentication scheme of HTTP, the user's name and password need to be sent with each request for a protected resource When the server gets a request to a protected resource, it checks whether that request has the HTTP header Authorization: Basic username:password If the name and password are accepted by the server (i.e., are those of a user that has the privilege to get the page), then the requested page is returned

32. HTTP Basic Mechanism If the request does not have the authorization header or the name and password are not accepted, then the server replies with 401 (unauthorized) An 401 response can have the header WWW-Authenticate: Basic realm="realm-name" That is, "in order to get this resource, you will have to authenticate using the basic method" -Tell the user to supply authentication for pages in realm-name

33. Declarative Security: BASIC Realm B Realm A /a/A.html /a/B.jsp /b/C.css /b/D.xml E.xsl GET E.xsl OK + Content F.xml

34. Declarative Security: BASIC Realm B Realm A /a/A.html /a/B.jsp /b/C.css /b/D.xml E.xsl GET /a/B.jsp 401 + Basic realm="A" F.xml

35. Declarative Security: BASIC Realm B Realm A /a/A.html /a/B.jsp /b/C.css /b/D.xml E.xsl GET /a/B.jsp + user:pass OK + Content F.xml

36. Declarative Security: BASIC Realm B Realm A /a/A.html /a/B.jsp /b/C.css /b/D.xml E.xsl GET /a/A.html + user:pass OK + Content F.xml

37. Browser Cooperation Throughout the session, the browser stores the username and password and automatically sends the authorization header in either one of the following cases: -The requested resource is under the directory of the originally authenticated resource -The browser received 401 from the Web server and the WWW-Authenticate header has the same realm as the previous protected resource

38. Digest Access Scheme The most serious security flaw in the basic scheme is that the name and password are sent unencrypted, and hence everyone on the network path can read it If an attacker snoops a request with basic authentication, she can access to the whole protection space of the resource The digest access authentication scheme solves many of the flaws of the basic schemes, such as the one above

39. Digest Operation Like the basic, the digest scheme requires that authentication data is sent with each request for a protected resource However, passwords are not sent in clear text The idea is to use a one-way hash, such as MD5 A one-way hash H is a mapping of strings that has the following properties: -It is "easy" to compute H(x), given the input x -It is "hard" to compute x, given the mapping H(x)

40. Digest Operation (cont) In the digest scheme, instead of sending the password x in clear text, the client sends H(y) y is the concatenation of the user name, the password, an opaque generated by the server, the request URI, and more A server that gets digested authentication data repeats the same encryption process and compares its output with the given H(y) More details can be found in RFC 2617 RFC2617

41. Server-Level Authentication A Web server can use its own authentication mechanisms rather than those of HTTP Typically, server-level mechanisms act as follows -The server requires authentication by redirecting the client to a special HTML form -If authentication succeeds, then the server stores the username in the corresponding session object Note that the browser and the HTTP headers are oblivious to server-level authentication

42. Programmatic Security In declarative security, a page is either accessible to a user or is not But what if we wanted a page to include some data that will only be shown to privileged users? -E.g., the grades of the user In programmatic security, we enhance security checks in dynamic pages (e.g., JSP) Using this approach, an application can generate different contents for different users

43. Declarative Security Advantages and Disadvantages Advantage: Application programs (i.e., JSP and Servlets) do not have to do anything special Advantage: Security holes due to bugs are less probable Disadvantage: Server-specific process Disadvantage: All or nothing security -users can or cannot see the page -sometimes, what we really want is for the page content to be dependent on the user

44. Authentication Management in Tomcat

45. Declarative Security in Tomcat To apply declarative security in Tomcat, we have to do the following: -Define roles and users (i.e., usernames and passwords) -Define the restricted pages and the roles that can access them -Define the authentication method that is used in the Web application

46. Defining Users and Roles 1.Create a database that stores users and roles A table that stores usernames and passwords A table that stores usernames and roles 2.Tell Tomcat how to access your tables in the file TOMCAT_BASE/conf/server.xml 3.Users and roles can be dynamically added to the database

47. An Example create table users ( username varchar(30) not null primary key, pass varchar(30) not null ); create table users_roles ( username varchar(30) not null, role varchar(30) not null, primary key (username,role), foreign key (username) references users(username) );

48. In server.xml <Realm className="org.apache.catalina.realm.JDBCRealm" driverName="oracle.jdbc.driver.OracleDriver" connectionURL= "jdbc:oracle:thin:snoopy/snoopy@sol4:1521:stud" userTable="users" userNameCol="username" userCredCol="pass" userRoleTable="users_roles" roleNameCol="role"/>

49. [more roles...] <user username="snoopy" password="snoopass" roles="members"/> [more users...] Static Users and Roles You can alternatively define a static set of users and roles in $CATALINA_BASE/conf/tomcat-users.xml

50. Tomcat Manager The default resource of users is the file tomcat- users If you use database users, then you need to add a a manager for Tomcat to your tables -Otherwise, you (and Eclipse) will not be able to log into the manager application A manager is a user that belongs to the role "manager"

51. Defining Restrictions in web.xml restricted one /restricted1/* restricted two /restricted2/*

52. members... members Defining Restrictions in web.xml

53. BASIC Authentication in Tomcat Add to the application's web.xml the login method (BASIC) and your chosen realm name BASIC Dear Members

54. FORM-Based Authentication in Tomcat Tomcat provides a built-in form-based authentication In the first request to a restricted page, the server forwards the request to a login page Using the form in the login page, the user submits its login and password to a special URL of the server, and the latter stores the information in the session object On subsequent requests, the server checks the session to see if it contains suitable authentication, and if so the requested page is returned

55. Add to web.xml FORM /admin/login.html /admin/login-error.html

56. Create A Login Page Log In Log in for accessing this resource. Login: Password: <input type="password" name="j_password"/> myApp/admin/login.html

57. Create A Login Page Login Failure Wrong username and password! myApp/admin/login-error.html `

58. Important: Disable the Servlet Invoker When protecting certain URLs, it still might be possible to bypass the authentication process because the URL of the Servlet invoker is not protected That is, a Servlet can be accessed by http://host/prefix/servlet/Name even if protected URLs are mapped to that Servlet For this reason (and others), it is OK to use the invoker while developing, but once the application is published the invoker should be disabled!

59. SSL Connections

60. Security on the Internet The Internet is used to transmit sensitive data from clients to servers and vice-versa -User passwords -Credit card numbers -Private client data on remote servers (e.g., Banks) However, data packets are read by several computers on the way from the client to the server (and vice-versa) -Routers, proxies, etc.

61. Security on the Internet (cont) For secure communication, the following should be provided: -Only the server can read the client requests -Only the client can read the server's responses -Only the client can send requests on behalf of itself -Only the server can send responses on behalf of itself In short, no one should be able to interfere in the interaction, either by reading the transferred data or by impersonating one of the sides

62. Symmetric and Asymmetric Keys Data can be encrypted and decrypted using keys, which are simply large numbers Symmetric keys: the same key is used for both encoding and decoding of the message Asymmetric keys: one key is used to encode the message, and another is used to decode it It is considered practically impossible to decode a message without knowing the decoding key

63. The RSA Cryptography System RSA was developed in 1977 by Ron Rivest, Adi Shamir and Leonard Adleman It is the based on the asymmetric key mechanism: -Each participant has a private key and a public key -The public key is known to all and the private key is kept in secret within its owner -Asymmetric keys: the public key is the encoding key and the private key is the decoding key

64. Secure Connection: A Naive Approach Consider the following protocol: -Server and Client send their public keys to each other -Data is encrypted using the public key of the receiver What is wrong with this protocol? -Encryption methods (public keys) are known to everyone - everyone can impersonate the participants -A participant cannot tell whether its received key was indeed sent by the other participant

65. SSL Connections The SSL (Secure Socket Layer) protocol is used to manage security of message transmission on the Internet Data encryption and decryption is based on symmetric and asymmetric keys The HTTPS (HTTP over SSL) protocol is actually the HTTP protocol above SSL transportation

66. TCP/IP SSL SSL in the Network Layers HTTP Email Protocols

67. The SSL Handshake Server hello + SSL settings Client SSL Settings + Certificate Is this a good certificate? 1. Client gets the Server's certificate

68. The SSL Handshake Server Client 2. Client creates a master secret and shares it with the server

69. The SSL Handshake Server Client 3. Client and server create symmetric session keys from the master secret

70. The SSL Handshake Server Client Data is transferred using the session keys (Http Response) (Http Request)

71. SSL Certificates To assure that the replier to the first request is the server, the server sends a certificate The certificate contains both the server's name and its public key The certificate is issued by a Certificate Authority (CA), which is known to the client in advance -For example: VeriSign, Thawte, RSA Secure Server, etc. CA signs the certificate using a digital signature, which the client can verify using a method similar to the private-public key method

72. Issuer's Name Public Key Serial Number Validity Period Server's Name The Server's Certificate Issuer's Digital Signature

73. An Example: The Certificate of bankleumi.co.il

74. Authentication via SSL If the server needs to assure the client's identity, the first interaction after the SSL handshake will typically be a client authentication Client authentication is done using the regular (e.g., HTTP) authentication mechanisms What is the difference, though?

75. SSL in Tomcat 5.0 To use SSL connections in Tomcat 5.0, we need to do the following: -Acquire a certificate -Enable the HTTPs service that listens to a designated port -Declare the pages that require SSL connections

76. Generating a Certificate Acquiring a certificate from a known CA costs money Instead, we will generate our own certificate Naturally, the browser will not recognize the CA as a known one and will therefore alert the user

77. Generating a Certificate (cont) From the command line, type the following: keytool -genkey -alias tomcat -keyalg RSA -keystore keyfile

79. Enable the HTTPS Service Add the following to $CATALINA_BASE/conf/server.xml under the Service "catalina": Declare the redirection port for the HTTP Connector: <Connector port="8443" scheme="https" secure="true" sslProtocol="TLS" keystoreFile="keyfile" keystorePass="keypass"/> server.xml

80. Declare Secured Pages In the application's web.xml, add the following element under the security constraint for which you want SSL to be used CONFIDENTIAL web.xml