260 lines
7.3 KiB
C
260 lines
7.3 KiB
C
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/* sema.c :07-Aug-97 */
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/* simple semaphore emulation, needs more work */
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/* (C)opyright (C) 1997 Martin Stover, Marburg, Germany
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*
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* This program is free software; you can redistribute it and/or modify
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* it under the terms of the GNU General Public License as published by
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* the Free Software Foundation; either version 2 of the License, or
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* (at your option) any later version.
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*
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* This program is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU General Public License for more details.
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*
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* You should have received a copy of the GNU General Public License
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* along with this program; if not, write to the Free Software
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* Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA.
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*/
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#include "net.h"
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#include "nwbind.h"
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#include "sema.h"
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#define MAX_SEMAPHORES 100
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typedef struct {
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int namlen;
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uint8 *name;
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int opencount;
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int value;
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} SEMA;
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static int count_semas=0;
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static SEMA *semas[MAX_SEMAPHORES];
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static int open_sema(int namlen, uint8 *name, int value, int *opencount)
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{
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int k=-1;
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int isfree=-1;
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SEMA *se;
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while (++k < count_semas){
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se=semas[k];
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if (se) {
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if (se->namlen==namlen && !memcmp(se->name, name, namlen)) {
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*opencount=++(se->opencount);
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return(++k);
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}
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} else if (isfree<0) isfree=k;
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}
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if (isfree<0 && count_semas < MAX_SEMAPHORES)
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isfree=count_semas++;
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if (isfree < 0) return(-0x96); /* out of mem */
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se=semas[isfree]=(SEMA*)xcmalloc(sizeof(SEMA));
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se->namlen=namlen;
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se->name=xmalloc(namlen);
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memcpy(se->name, name, namlen);
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se->value=value;
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*opencount=se->opencount=1;
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return(++isfree);
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}
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static int close_sema(int handle)
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{
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SEMA *se;
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if (handle > 0 && --handle < count_semas && NULL != (se=semas[handle])){
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if (!(--se->opencount)) {
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xfree(se->name);
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xfree(se);
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semas[handle]=NULL;
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while (handle == count_semas-1) {
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--count_semas;
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if (!handle || semas[--handle]) break;
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}
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}
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return(0);
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}
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return(-0xff); /* wrong handle */
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}
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static int wait_sema(int handle, int timeout)
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{
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SEMA *se;
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if (handle > 0 && --handle < count_semas && NULL != (se=semas[handle])){
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if (se->value < 1) return(-0xfe); /* timeout */
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--se->value;
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return(0);
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}
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return(-0xff); /* wrong handle */
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}
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static int signal_sema(int handle)
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{
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SEMA *se;
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if (handle > 0 && --handle < count_semas && NULL != (se=semas[handle])){
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++se->value;
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return(0);
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}
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return(-0xff); /* wrong handle */
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}
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static int examine_sema(int handle, int *value, int *opencount)
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{
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SEMA *se;
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if (handle > 0 && --handle < count_semas && NULL != (se=semas[handle])){
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*value=se->value;
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*opencount=se->opencount;
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return(0);
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}
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return(-0xff); /* wrong handle */
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}
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static int open_conn_sema(CONNECTION *c, int handle)
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{
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int k=c->count_semas;
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int is_free=-1;
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SEMA_CONN *sem;
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while (k--) {
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sem=&(c->semas[k]);
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if (sem->handle==handle) {
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sem->opencount++;
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return(handle);
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} else if (!sem->handle) is_free=k;
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}
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if (is_free < 0 && c->count_semas < MAX_SEMA_CONN)
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is_free=c->count_semas++;
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if (is_free < 0)
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return(-0x96); /* we say out of mem here */
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sem=&(c->semas[is_free]);
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sem->handle=handle;
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sem->opencount=1;
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return(handle);
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}
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static int close_conn_sema(CONNECTION *c, int handle)
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{
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int k=c->count_semas;
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SEMA_CONN *sem;
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while (k--) {
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sem=&(c->semas[k]);
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if (sem->handle==handle) {
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if (!--sem->opencount) {
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sem->handle=0;
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if (k==c->count_semas-1) {
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while(c->count_semas > 0
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&& !(c->semas[c->count_semas-1].handle) )
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--c->count_semas;
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}
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}
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return(0);
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}
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}
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return(-0xff); /* wrong handle */
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}
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void clear_conn_semas(CONNECTION *c)
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/* removes semas which are opened by this connection */
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{
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while (c->count_semas--) {
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SEMA_CONN *sem=&(c->semas[c->count_semas]);
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if (sem->handle>0&&sem->opencount>0) {
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while (sem->opencount--)
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close_sema(sem->handle);
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}
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}
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c->count_semas=0;
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}
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int handle_func_0x20(CONNECTION *c, uint8 *p, int ufunc, uint8 *responsedata)
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{
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int result = -0xfb; /* unknown request */
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XDPRINTF((3, 0, "0x20 call ufunc=0x%x", ufunc));
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switch (ufunc) {
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case 0x0 : { /* open semaphore */
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int value = *p;
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int namlen = *(p+1);
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uint8 *name = (p+2);
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struct XDATA {
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uint8 handle[4];
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uint8 opencount;
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} *xdata = (struct XDATA*) responsedata;
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int opencount;
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if (namlen < 1 || namlen > 127) return(-0xfe);
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if (value > 127) return(-0xff);
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result=open_sema(namlen, name, value, &opencount);
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if (result > -1) {
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result=open_conn_sema(c, result);
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if (result < 0){
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close_sema(result);
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}
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}
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if (nw_debug>1){
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name[namlen]=0;
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XDPRINTF((2, 0, "open_sem:`%s` value=%d, count=%d, handle=%d",
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name, value, opencount, result));
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}
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if (result > -1) {
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U32_TO_BE32(result, xdata->handle);
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xdata->opencount=(uint8)opencount;
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result=sizeof(*xdata);
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}
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}
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break;
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case 0x1 : { /* examine semaphore */
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int handle = GET_BE32(p);
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struct XDATA {
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char value;
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uint8 opencount;
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} *xdata = (struct XDATA*) responsedata;
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int value;
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int opencount;
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result=examine_sema(handle, &value, &opencount);
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XDPRINTF((2, 0, "examine_sem:%d, value=%d, opcount=%d, result=%d",
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handle, value, opencount, result));
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if (result > -1) {
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xdata->value=(char)value;
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xdata->opencount=(uint8)opencount;
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result=sizeof(*xdata);
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}
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}
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break;
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case 0x2 : { /* wait on semaphore */
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int handle = GET_BE32(p);
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int timeout = GET_BE16(p+4);
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result=wait_sema(handle, timeout);
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XDPRINTF((2, 0, "wait_sem:%d, timeout=%d, result=%d",
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handle, timeout, result));
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}
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break;
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case 0x3 : { /* signal sema */
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int handle = GET_BE32(p);
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result=signal_sema(handle);
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XDPRINTF((2, 0, "signal_sem:%d, result=%d",
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handle, result));
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}
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break;
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case 0x4 : { /* close semaphore */
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int handle = GET_BE32(p);
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result=close_conn_sema(c, handle);
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if (!result)
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result=close_sema(handle);
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XDPRINTF((2, 0, "close_sem:%d, result=%d",
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handle, result));
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}
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break;
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default : break;
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}
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return(result);
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}
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