2 Interacting with Enea OSE
2.1 Introduction
The main way which programs on Enea OSE interact is through the usage of message passing, much the same way as Erlang processes communicate. There are two ways in which an Erlang programmer can interact with the signals sent from other Enea OSE processes; either through the provided ose module, or by writing a custom linked-in driver. This User's Guide describes and provides examples for both approaches.
2.2 Signals in Erlang
Erlang/OTP on OSE provides a erlang module called ose that can be used to interact with other OSE processes using message passing. The api in the module is very similar to the native OSE api, so for details of how the functions work please refer to the official OSE documenation. Below is an example usage of the API.
1> P1 = ose:open("p1").
#Port>0.344>
2> ose:hunt(P1,"p2").
{#Port>0.344>,1}
3> P2 = ose:open("p2").
#Port>0.355>
4> flush().
Shell got {mailbox_up,#Port>0.344>,{#Port>0.344>,1},852189}
ok
5> ose:listen(P1,[1234]).
ok
6> ose:send(P2,ose:get_id(P1),1234,>>"hello">>).
ok
7> flush().
Shell got {message,#Port>0.344>,{852189,1245316,1234,>>"hello">>}}
ok2.3 Signals in a Linked-in driver
Writing Linked-in drivers for OSE is very similar to how it is done for Unix/Windows. It is only the way in which the driver subscribes and consumed external events that is different. In Unix (and Windows) file descriptiors (and Event Objects) are used to select on. On OSE we use signals to deliver the same functionality. There are two large differences between a signal and an fd.
In OSE it is not possible for a signal number to be a unique identifier for a resource in the same way as an fd is. For example; let's say we implement a driver that does an asynchronous hunt that uses signal number 1234 as the hunt_sig. If we want to be able to have multiple hunt ports running at the same time we have to have someway of routing the signal to the correct port. This is achieved by supplying a secondary id that can be retrieved through the meta-data or payload of the signal, e.g:
ErlDrvEvent event = erl_drv_ose_event_alloc(1234,port,resolver);
erl_drv_ose_event_fetch(event, &signal, &port, (void **)&extra);
It is very important to issue the driver_select call before any of the signals you are interested in are sent. If driver_select is called after the signal is sent, there is a high probability that it will be lost.
The other difference from unix is that in OSE the payload of the event (i.e. the signal data) is already received when the ready_output/input callbacks are called. This means that you access the data of a signal by calling erl_drv_ose_get_signal. Additionally multiple signals might be associated with the event, so you should call erl_drv_ose_get_signal until NULL is returned.
2.4 Example Linked-in driver
#include "erl_driver.h"
#include "ose.h"
struct huntsig {
SIGSELECT signo;
ErlDrvPort port;
};
union SIGNAL {
SIGSELECT signo;
struct huntsig;
}
/* Here we have to get the id from the signal. In this case we use the
port id since we have control over the data structure of the signal.
It is however possible to use anything in here. The only restriction
is that the same id has to be used for all signals of the same number.*/
ErlDrvOseEventId resolver(union SIGNAL *sig) {
return (ErlDrvOseEventId)sig->huntsig.port;
}
static int drv_init(void) { return 0; };
static ErlDrvData drv_start(ErlDrvPort port, char *command) {
return (ErlDrvData)port;
}
static ErlDrvSSizeT control(ErlDrvData driver_data, unsigned int cmd,
char *buf, ErlDrvSizeT len,
char **rbuf, ErlDrvSizeT rlen) {
ErlDrvPort port = (ErlDrvPort)driver_data;
/* An example of extra data to associate with the event */
char *extra_data = driver_alloc(80);
snprintf("extra_data, "Event, sig_no: 1234, and port: %d", port);
/* Create a new event to select on */
ErlDrvOseEvent evt = erl_drv_ose_event_alloc(1234,port,resolver, extra_data);
/* Make sure to do the select call _BEFORE_ the signal arrives.
The signal might get lost if the hunt call is done before the
select. */
driver_select(port,evt,ERL_DRV_READ|ERL_DRV_USE,1);
union SIGNAL *sig = alloc(sizeof(union SIGNAL),1234);
sig->huntsig.port = port;
hunt("testprocess",0,NULL,&sig);
return 0;
}
static void ready_input(ErlDrvData driver_data, ErlDrvEvent evt) {
char *extra_data;
/* Get the first signal payload from the event */
union SIGNAL *sig = erl_drv_ose_get_signal(evt);
ErlDrvPort port = (ErlDrvPort)driver_data;
while (sig != NULL) {
if (sig->signo == 1234) {
/* Print out the string we added as the extra parameter */
erl_drv_ose_event_fetch(evt, NULL, NULL, (void **)&extra_data);
printf("We've received: %s\n", extra_data);
/* If it is our signal we send a message with the sender of the signal
to the controlling erlang process */
ErlDrvTermData reply[] = { ERL_DRV_UINT, (ErlDrvUInt)sender(&sig) };
erl_drv_send_term(port,reply,sizeof(reply) / sizeof(reply[0]));
}
/* Cleanup the signal and deselect on the event.
Note that the event itself has to be free'd in the stop_select
callback. */
free_buf(&sig);
driver_select(port,evt,ERL_DRV_READ|ERL_DRV_USE,0);
/* There could be more than one signal waiting in this event, so
we have to loop until sig == NULL */
sig = erl_drv_ose_get_signal(evt);
}
}
static void stop_select(ErlDrvEvent event, void *reserved)
{
/* Free the extra_data */
erl_drv_ose_event_fetch(evt, NULL, NULL, (void **)&extra_data);
driver_free(extra_data);
/* Free the event itself */
erl_drv_ose_event_free(event);
}
/**
* Setup the driver entry for the Erlang runtime
**/
ErlDrvEntry ose_signal_driver_entry = {
.init = drv_init,
.start = drv_start,
.stop = drv_stop,
.ready_input = ready_input,
.driver_name = DRIVER_NAME,
.control = control,
.extended_marker = ERL_DRV_EXTENDED_MARKER,
.major_version = ERL_DRV_EXTENDED_MAJOR_VERSION,
.minor_version = ERL_DRV_EXTENDED_MINOR_VERSION,
.driver_flags = ERL_DRV_FLAG_USE_PORT_LOCKING,
.stop_select = stop_select
};