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Run-Sun3-SunOS-4.1.1/tme-0.8_up/serial/serial-sink.c
Amberelle Mason ac30ff9032 Initial import 
Initial import of SunOS 4.1.1 and TME 0.8
2023-05-01 12:16:40 -04:00

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/* $Id: serial-sink.c,v 1.1 2006/09/30 12:56:01 fredette Exp $ */
/* serial/serial-sink.c - a serial sink: */
/*
* Copyright (c) 2006 Matt Fredette
* All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions
* are met:
* 1. Redistributions of source code must retain the above copyright
* notice, this list of conditions and the following disclaimer.
* 2. Redistributions in binary form must reproduce the above copyright
* notice, this list of conditions and the following disclaimer in the
* documentation and/or other materials provided with the distribution.
* 3. All advertising materials mentioning features or use of this software
* must display the following acknowledgement:
* This product includes software developed by Matt Fredette.
* 4. The name of the author may not be used to endorse or promote products
* derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED
* WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE
* DISCLAIMED. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT,
* INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES
* (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR
* SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
* HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT,
* STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN
* ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#include <tme/common.h>
_TME_RCSID("$Id: serial-sink.c,v 1.1 2006/09/30 12:56:01 fredette Exp $");
/* includes: */
#include <tme/common.h>
#include <tme/threads.h>
#include <tme/generic/serial.h>
/* macros: */
/* the callout flags: */
#define TME_SERIAL_SINK_CALLOUT_CHECK (0)
#define TME_SERIAL_SINK_CALLOUT_RUNNING TME_BIT(0)
#define TME_SERIAL_SINK_CALLOUTS_MASK (-2)
#define TME_SERIAL_SINK_CALLOUT_SERIAL_READ TME_BIT(1)
/* types: */
/* a serial sink: */
struct tme_serial_sink {
/* backpointer to our element: */
struct tme_element *tme_serial_sink_element;
/* our mutex: */
tme_mutex_t tme_serial_sink_mutex;
/* our serial connection: */
struct tme_serial_connection *tme_serial_sink_connection_serial;
/* the callout flags: */
int tme_serial_sink_callout_flags;
};
/* the serial sink callout function. it must be called with the mutex locked: */
static void
_tme_serial_sink_callout(struct tme_serial_sink *serial_sink, int new_callouts)
{
struct tme_serial_connection *conn_serial;
int callouts, later_callouts;
tme_uint8_t buffer_input[32];
tme_serial_data_flags_t data_flags;
int rc;
/* add in any new callouts: */
serial_sink->tme_serial_sink_callout_flags |= new_callouts;
/* if this function is already running in another thread, simply
return now. the other thread will do our work: */
if (serial_sink->tme_serial_sink_callout_flags
& TME_SERIAL_SINK_CALLOUT_RUNNING) {
return;
}
/* callouts are now running: */
serial_sink->tme_serial_sink_callout_flags
|= TME_SERIAL_SINK_CALLOUT_RUNNING;
/* assume that we won't need any later callouts: */
later_callouts = 0;
/* loop while callouts are needed: */
for (; ((callouts
= serial_sink->tme_serial_sink_callout_flags)
& TME_SERIAL_SINK_CALLOUTS_MASK); ) {
/* clear the needed callouts: */
serial_sink->tme_serial_sink_callout_flags
= (callouts
& ~TME_SERIAL_SINK_CALLOUTS_MASK);
callouts &= TME_SERIAL_SINK_CALLOUTS_MASK;
/* get this sink's connection: */
conn_serial = serial_sink->tme_serial_sink_connection_serial;
/* if the serial connection is readable: */
if (callouts & TME_SERIAL_SINK_CALLOUT_SERIAL_READ) {
/* unlock the mutex: */
tme_mutex_unlock(&serial_sink->tme_serial_sink_mutex);
/* do the read: */
rc = (conn_serial != NULL
? ((*conn_serial->tme_serial_connection_read)
(conn_serial,
buffer_input,
sizeof(buffer_input),
&data_flags))
: 0);
/* lock the mutex: */
tme_mutex_lock(&serial_sink->tme_serial_sink_mutex);
/* if the read was successful: */
if (rc > 0) {
/* mark that we need to loop to callout to read more data: */
serial_sink->tme_serial_sink_callout_flags
|= TME_SERIAL_SINK_CALLOUT_SERIAL_READ;
}
/* otherwise, the read failed. convention dictates that we
forget that the connection was readable, which we already
have done by clearing the CALLOUT_SERIAL_READ flag: */
}
}
/* put in any later callouts, and clear that callouts are running: */
serial_sink->tme_serial_sink_callout_flags = later_callouts;
}
/* the serial configuration function: */
static int
_tme_serial_sink_serial_config(struct tme_serial_connection *conn_serial,
struct tme_serial_config *config)
{
/* nothing to do: */
return (TME_OK);
/* unused: */
conn_serial = 0;
config = 0;
}
/* the serial control function: */
static int
_tme_serial_sink_serial_ctrl(struct tme_serial_connection *conn_serial,
unsigned int ctrl)
{
struct tme_serial_sink *serial_sink;
int new_callouts;
/* recover our data structure: */
serial_sink = conn_serial->tme_serial_connection.tme_connection_element->tme_element_private;
/* assume that we won't need any new callouts: */
new_callouts = 0;
/* lock our mutex: */
tme_mutex_lock(&serial_sink->tme_serial_sink_mutex);
/* if this connection is readable, call out a read: */
if (ctrl & TME_SERIAL_CTRL_OK_READ) {
new_callouts |= TME_SERIAL_SINK_CALLOUT_SERIAL_READ;
}
/* make any new callouts: */
_tme_serial_sink_callout(serial_sink, new_callouts);
/* unlock our mutex: */
tme_mutex_unlock(&serial_sink->tme_serial_sink_mutex);
/* done: */
return (TME_OK);
}
/* the serial read callin function: */
static int
_tme_serial_sink_serial_read(struct tme_serial_connection *conn_serial,
tme_uint8_t *data, unsigned int count,
tme_serial_data_flags_t *_data_flags)
{
/* we never have any data to read: */
return (0);
/* unused: */
conn_serial = 0;
data = 0;
count = 0;
_data_flags = 0;
}
/* this scores a connection: */
static int
_tme_serial_sink_connection_score(struct tme_connection *conn,
unsigned int *_score)
{
/* any connection is always good: */
*_score = 1;
return (TME_OK);
}
/* this makes a new connection: */
static int
_tme_serial_sink_connection_make(struct tme_connection *conn,
unsigned int state)
{
struct tme_serial_sink *serial_sink;
/* recover our serial sink: */
serial_sink = conn->tme_connection_element->tme_element_private;
/* we're always set up to answer calls across the connection,
so we only have to do work when the connection has gone full,
namely taking the other side of the connection: */
if (state == TME_CONNECTION_FULL) {
/* lock our mutex: */
tme_mutex_lock(&serial_sink->tme_serial_sink_mutex);
serial_sink->tme_serial_sink_connection_serial
= ((struct tme_serial_connection *)
conn->tme_connection_other);
/* unlock our mutex: */
tme_mutex_unlock(&serial_sink->tme_serial_sink_mutex);
}
return (TME_OK);
}
/* this breaks a connection: */
static int
_tme_serial_sink_connection_break(struct tme_connection *conn,
unsigned int state)
{
abort();
}
/* this makes a new connection side for a serial sink: */
static int
_tme_serial_sink_connections_new(struct tme_element *element,
const char * const *args,
struct tme_connection **_conns,
char **_output)
{
struct tme_serial_sink *serial_sink;
struct tme_serial_connection *conn_serial;
struct tme_connection *conn;
/* recover our serial: */
serial_sink = (struct tme_serial_sink *) element->tme_element_private;
/* we never take any arguments: */
if (args[1] != NULL) {
tme_output_append_error(_output,
"%s %s, ",
args[1],
_("unexpected"));
return (EINVAL);
}
/* if we don't have a serial connection yet: */
if (serial_sink->tme_serial_sink_connection_serial == NULL) {
/* create our side of a serial connection: */
conn_serial = tme_new0(struct tme_serial_connection, 1);
conn = &conn_serial->tme_serial_connection;
/* fill in the generic connection: */
conn->tme_connection_next = *_conns;
conn->tme_connection_type = TME_CONNECTION_SERIAL;
conn->tme_connection_score = _tme_serial_sink_connection_score;
conn->tme_connection_make = _tme_serial_sink_connection_make;
conn->tme_connection_break = _tme_serial_sink_connection_break;
/* fill in the serial connection: */
conn_serial->tme_serial_connection_config = _tme_serial_sink_serial_config;
conn_serial->tme_serial_connection_ctrl = _tme_serial_sink_serial_ctrl;
conn_serial->tme_serial_connection_read = _tme_serial_sink_serial_read;
/* return the connection side possibility: */
*_conns = conn;
}
return (TME_OK);
}
/* the new serial sink function: */
TME_ELEMENT_X_NEW_DECL(tme_serial_,kb,sink) {
struct tme_serial_sink *serial_sink;
int usage;
int arg_i;
/* initialize: */
arg_i = 1;
usage = FALSE;
/* loop reading our arguments: */
for (;;) {
if (0) {
}
/* if we've run out of arguments: */
else if (args[arg_i + 0] == NULL) {
break;
}
/* this is a bad argument: */
else {
tme_output_append_error(_output,
"%s %s",
args[arg_i],
_("unexpected"));
usage = TRUE;
break;
}
}
if (usage) {
tme_output_append_error(_output,
"%s %s",
_("usage:"),
args[0]);
return (EINVAL);
}
/* start the serial sink structure: */
serial_sink = tme_new0(struct tme_serial_sink, 1);
serial_sink->tme_serial_sink_element = element;
tme_mutex_init(&serial_sink->tme_serial_sink_mutex);
serial_sink->tme_serial_sink_connection_serial = NULL;
serial_sink->tme_serial_sink_callout_flags = 0;
/* fill the element: */
element->tme_element_private = serial_sink;
element->tme_element_connections_new = _tme_serial_sink_connections_new;
return (TME_OK);
}
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