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omapi

OMAPI - Object Management Application Programming Interface


  1. omapi.3.man


1. omapi.3.man

Manpage of omapi

omapi

Section: C Library Functions (3)
Index Return to Main Contents
 

NAME

OMAPI - Object Management Application Programming Interface  

DESCRIPTION

OMAPI is an programming layer designed for controlling remote applications, and for querying them for their state. It is currently used by the ISC DHCP server and this outline addresses the parts of OMAPI appropriate to the clients of DHCP server. It does this by also describing the use of a thin API layered on top of OMAPI called 'dhcpctl'

OMAPI uses TCP/IP as the transport for server communication, and security can be imposed by having the client and server cryptographically sign messages using a shared secret.

dhcpctl works by presenting the client with handles to objects that act as surrogates for the real objects in the server. For example a client will create a handle for a lease object, and will request the server to fill the lease handle's state. The client application can then pull details such as the lease expiration time from the lease handle.

Modifications can be made to the server state by creating handles to new objects, or by modifying attributes of handles to existing objects, and then instructing the server to update itself according to the changes made.  

USAGE

The client application must always call dhcpctl_initialize() before making calls to any other dhcpctl functions. This initializes various internal data structures.

To create the connection to the server the client must use dhcpctl_connect() function. As well as making the physical connection it will also set up the connection data structures to do authentication on each message, if that is required.

All the dhcpctl functions return an integer value of type isc_result_t. A successful call will yield a result of ISC_R_SUCCESS. If the call fails for a reason local to the client (e.g. insufficient local memory, or invalid arguments to the call) then the return value of the dhcpctl function will show that. If the call succeeds but the server couldn't process the request the error value from the server is returned through another way, shown below.

The easiest way to understand dhcpctl is to see it in action. The following program is fully functional, but almost all error checking has been removed to make is shorter and easier to understand. This program will query the server running on the localhost for the details of the lease for IP address 10.0.0.101. It will then print out the time the lease ends.

                #include <stdarg.h>
                #include <sys/time.h>
                #include <sys/socket.h>
                #include <stdio.h>
                #include <netinet/in.h>

                #include <isc/result.h>
                #include <dhcpctl/dhcpctl.h>

                int main (int argc, char **argv) {
                        dhcpctl_data_string ipaddrstring = NULL;
                        dhcpctl_data_string value = NULL;

All modifications of handles and all accesses of handle data happen via dhcpctl_data_string objects.

                        dhcpctl_handle connection = NULL;
                        dhcpctl_handle lease = NULL;
                        isc_result_t waitstatus;
                        struct in_addr convaddr;
                        time_t thetime;

                        dhcpctl_initialize ();

Required first step.

                        dhcpctl_connect (&connection, "127.0.0.1",
                                         7911, 0);

Sets up the connection to the server. The server normally listens on port 7911 unless configured to do otherwise.

                        dhcpctl_new_object (&lease, connection,
                                            "lease");

Here we create a handle to a lease. This call just sets up local data structure. The server hasn't yet made any association between the client's data structure and any lease it has.

                        memset (&ipaddrstring, 0, sizeof
                                ipaddrstring);

                        inet_pton(AF_INET, "10.0.0.101",
                                  &convaddr);

                        omapi_data_string_new (&ipaddrstring,
                                               4, MDL);

Create a new data string to storing in the handle.

                        memcpy(ipaddrstring->value, &convaddr.s_addr, 4);

                        dhcpctl_set_value (lease, ipaddrstring,
                                           "ip-address");

We're setting the ip-address attribute of the lease handle to the given address. We've not set any other attributes so when the server makes the association the ip address will be all it uses to look up the lease in its tables.

                        dhcpctl_open_object (lease, connection, 0);

Here we prime the connection with the request to look up the lease in the server and fill up the local handle with the attributes the server will send over in its answer.

                        dhcpctl_wait_for_completion (lease,
                                                     &waitstatus);

This call causes the message to get sent to the server (the message to look up the lease and send back the attribute values in the answer). The value in the variable waitstatus when the function returns will be the result from the server. If the message could not be processed properly by the server then the error will be reflected here.

                        if (waitstatus != ISC_R_SUCCESS) {
                                /* server not authoritative */
                                exit (0);
                        }

                        dhcpctl_data_string_dereference(&ipaddrstring,
                                                        MDL);

Clean-up memory we no longer need.

                        dhcpctl_get_value (&value, lease, "ends");

Get the attribute named ``ends'' from the lease handle. This is a 4-byte integer of the time (in unix epoch seconds) that the lease will expire.

        
                        memcpy(&thetime, value->value, value->len);
                        dhcpctl_data_string_dereference(&value, MDL);

                        fprintf (stdout, "ending time is %s",
                                 ctime(&thetime));
                }

 

AUTHENTICATION

If the server demands authenticated connections then before opening the connection the user must call dhcpctl_new_authenticator.

                dhcpctl_handle authenticator = NULL;
                const char *keyname = "a-key-name";
                const char *algorithm = "hmac-md5";
                const char *secret = "a-shared-secret";

                dhcpctl_new_authenticator (&authenticator, 
                                           keyname,
                                           algorithm,
                                           secret,
                                           strlen(secret) + 1);

The keyname, algorithm and must all match what is specified in the server's dhcpd.conf file, excepting that the secret should appear in 'raw' form, not in base64 as it would in dhcpd.conf:

                key "a-key-name" {
                        algorithm hmac-md5;
                        secret "a-shared-secret";
                };

                # Set the omapi-key value to use
                # authenticated connections
                omapi-key a-key-name;

The authenticator handle that is created by the call to dhcpctl_new_authenticator must be given as the last (the 4th) argument to the call to dhcpctl_connect(). All messages will then be signed with the given secret string using the specified algorithm.  

SEE ALSO

dhcpctl(3), omshell(1), dhcpd(8), dhclient(8), dhcpd.conf(5), dhclient.conf(5).  

AUTHOR

omapi was created by Ted Lemon of Nominum, Inc. This documentation was written by James Brister of Nominum, Inc.


 

Index

NAME
DESCRIPTION
USAGE
AUTHENTICATION
SEE ALSO
AUTHOR

This document was created by man2html using the manual pages.
Time: 17:31:56 GMT, October 23, 2013

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