@c $Id: programming.texi,v 1.2.8.1 2003/04/24 11:55:45 lha Exp $ @node Programming with Kerberos @chapter Programming with Kerberos First you need to know how the Kerberos model works, go read the introduction text (@pxref{What is Kerberos?}). @macro manpage{man, section} @cite{\man\(\section\)} @end macro @menu * Kerberos 5 API Overview:: * Walkthru a sample Kerberos 5 client:: * Validating a password in a server application:: @end menu @node Kerberos 5 API Overview, Walkthru a sample Kerberos 5 client, Programming with Kerberos, Programming with Kerberos @section Kerberos 5 API Overview Most functions are documenteded in manual pages. This overview only tries to point to where to look for a specific function. @subsection Kerberos context A kerberos context (@code{krb5_context}) holds all per thread state. All global variables that are context specific are stored in this struture, including default encryption types, credential-cache (ticket file), and default realms. See the manual pages for @manpage{krb5_context,3} and @manpage{krb5_init_context,3}. @subsection Kerberos authenication context Kerberos authentication context (@code{krb5_auth_context}) holds all context related to an authenticated connection, in a similar way to the kerberos context that holds the context for the thread or process. The @code{krb5_auth_context} is used by various functions that are directly related to authentication between the server/client. Example of data that this structure contains are various flags, addresses of client and server, port numbers, keyblocks (and subkeys), sequence numbers, replay cache, and checksum types. See the manual page for @manpage{krb5_auth_context,3}. @subsection Keytab management A keytab is a storage for locally stored keys. Heimdal includes keytab support for Kerberos 5 keytabs, Kerberos 4 srvtab, AFS-KeyFile's, and for storing keys in memory. See also manual page for @manpage{krb5_keytab,3} @node Walkthru a sample Kerberos 5 client, Validating a password in a server application, Kerberos 5 API Overview, Programming with Kerberos @section Walkthru a sample Kerberos 5 client This example contains parts of a sample TCP Kerberos 5 clients, if you want a real working client, please look in @file{appl/test} directory in the Heimdal distribution. All Kerberos error-codes that are returned from kerberos functions in this program are passed to @code{krb5_err}, that will print a descriptive text of the error code and exit. Graphical programs can convert error-code to a humal readable error-string with the @manpage{krb5_get_err_text,3} function. Note that you should not use any Kerberos function before @code{krb5_init_context()} have completed successfully. That is the reson @code{err()} is used when @code{krb5_init_context()} fails. First the client needs to call @code{krb5_init_context} to initialize the Kerberos 5 library. This is only needed once per thread in the program. If the function returns a non-zero value it indicates that either the Kerberos implemtation is failing or its disabled on this host. @example #include int main(int argc, char **argv) @{ krb5_context context; if (krb5_context(&context)) errx (1, "krb5_context"); @end example Now the client wants to connect to the host at the other end. The preferred way of doing this is using @manpage{getaddrinfo,3} (for operating system that have this function implemented), since getaddrinfo is neutral to the address type and can use any protocol that is available. @example struct addrinfo *ai, *a; struct addrinfo hints; int error; memset (&hints, 0, sizeof(hints)); hints.ai_socktype = SOCK_STREAM; hints.ai_protocol = IPPROTO_TCP; error = getaddrinfo (hostname, "pop3", &hints, &ai); if (error) errx (1, "%s: %s", hostname, gai_strerror(error)); for (a = ai; a != NULL; a = a->ai_next) @{ int s; s = socket (a->ai_family, a->ai_socktype, a->ai_protocol); if (s < 0) continue; if (connect (s, a->ai_addr, a->ai_addrlen) < 0) @{ warn ("connect(%s)", hostname); close (s); continue; @} freeaddrinfo (ai); ai = NULL; @} if (ai) @{ freeaddrinfo (ai); errx ("failed to contact %s", hostname); @} @end example Before authenticating, an authentication context needs to be created. This context keeps all information for one (to be) authenticated connection (see @manpage{krb5_auth_context,3}). @example status = krb5_auth_con_init (context, &auth_context); if (status) krb5_err (context, 1, status, "krb5_auth_con_init"); @end example For setting the address in the authentication there is a help function @code{krb5_auth_con_setaddrs_from_fd} that does everthing that is needed when given a connected file descriptor to the socket. @example status = krb5_auth_con_setaddrs_from_fd (context, auth_context, &sock); if (status) krb5_err (context, 1, status, "krb5_auth_con_setaddrs_from_fd"); @end example The next step is to build a server principal for the service we want to connect to. (See also @manpage{krb5_sname_to_principal,3}.) @example status = krb5_sname_to_principal (context, hostname, service, KRB5_NT_SRV_HST, &server); if (status) krb5_err (context, 1, status, "krb5_sname_to_principal"); @end example The client principal is not passed to @manpage{krb5_sendauth,3} function, this causes the @code{krb5_sendauth} function to try to figure it out itself. The server program is using the function @manpage{krb5_recvauth,3} to receive the Kerberos 5 authenticator. In this case, mutual authenication will be tried. That means that the server will authenticate to the client. Using mutual authenication is good since it enables the user to verify that they are talking to the right server (a server that knows the key). If you are using a non-blocking socket you will need to do all work of @code{krb5_sendauth} yourself. Basically you need to send over the authenticator from @manpage{krb5_mk_req,3} and, in case of mutual authentication, verifying the result from the server with @manpage{krb5_rd_rep,3}. @example status = krb5_sendauth (context, &auth_context, &sock, VERSION, NULL, server, AP_OPTS_MUTUAL_REQUIRED, NULL, NULL, NULL, NULL, NULL, NULL); if (status) krb5_err (context, 1, status, "krb5_sendauth"); @end example Once authentication has been performed, it is time to send some data. First we create a krb5_data structure, then we sign it with @manpage{krb5_mk_safe,3} using the @code{auth_context} that contains the session-key that was exchanged in the @manpage{krb5_sendauth,3}/@manpage{krb5_recvauth,3} authentication sequence. @example data.data = "hej"; data.length = 3; krb5_data_zero (&packet); status = krb5_mk_safe (context, auth_context, &data, &packet, NULL); if (status) krb5_err (context, 1, status, "krb5_mk_safe"); @end example And send it over the network. @example len = packet.length; net_len = htonl(len); if (krb5_net_write (context, &sock, &net_len, 4) != 4) err (1, "krb5_net_write"); if (krb5_net_write (context, &sock, packet.data, len) != len) err (1, "krb5_net_write"); @end example To send encrypted (and signed) data @manpage{krb5_mk_priv,3} should be used instead. @manpage{krb5_mk_priv,3} works the same way as @manpage{krb5_mk_safe,3}, with the exception that it encrypts the data in addition to signing it. @example data.data = "hemligt"; data.length = 7; krb5_data_free (&packet); status = krb5_mk_priv (context, auth_context, &data, &packet, NULL); if (status) krb5_err (context, 1, status, "krb5_mk_priv"); @end example And send it over the network. @example len = packet.length; net_len = htonl(len); if (krb5_net_write (context, &sock, &net_len, 4) != 4) err (1, "krb5_net_write"); if (krb5_net_write (context, &sock, packet.data, len) != len) err (1, "krb5_net_write"); @end example The server is using @manpage{krb5_rd_safe,3} and @manpage{krb5_rd_priv,3} to verify the signature and decrypt the packet. @node Validating a password in a server application, , Walkthru a sample Kerberos 5 client, Programming with Kerberos @section Validating a password in an application See the manual page for @manpage{krb5_verify_user,3}. @c @node Why you should use GSS-API for new applications, Walkthru a sample GSS-API client, Validating a password in a server application, Programming with Kerberos @c @section Why you should use GSS-API for new applications @c @c SSPI, bah, bah, microsoft, bah, bah, almost GSS-API. @c @c It would also be possible for other mechanisms then Kerberos, but that @c doesn't exist any other GSS-API implementations today. @c @c @node Walkthru a sample GSS-API client, , Why you should use GSS-API for new applications, Programming with Kerberos @c @section Walkthru a sample GSS-API client @c @c Write about how gssapi_clent.c works.