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tdenetwork/krdc/kservicelocator.cpp

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/*
* Interface to find SLP services.
* Copyright (C) 2002 Tim Jansen <tim@tjansen.de>
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Library General Public
* License as published by the Free Software Foundation; either
* version 2 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Library General Public License for more details.
*
* You should have received a copy of the GNU Library General Public License
* along with this library; see the file COPYING.LIB. If not, write to
* the Free Software Foundation, Inc., 51 Franklin Street, Fifth Floor,
* Boston, MA 02110-1301, USA.
*/
#ifdef HAVE_CONFIG_H
#include <config.h>
#endif
#include "kservicelocator.h"
#include <kdebug.h>
#include <tqregexp.h>
#include <tqapplication.h>
#ifdef HAVE_SLP
#include <slp.h>
#include <tqevent.h>
#include <tqthread.h>
#endif
const TQString KServiceLocator::DEFAULT_AUTHORITY = "";
const TQString KServiceLocator::ALL_AUTHORITIES = TQString();
class AsyncThread;
class KServiceLocatorPrivate {
public:
KServiceLocator *m_ksl;
bool m_opened;
volatile bool m_abort;
TQString m_lang;
bool m_async;
bool ensureOpen();
KServiceLocatorPrivate(KServiceLocator *ksl,
const TQString &lang,
bool async);
~KServiceLocatorPrivate();
#ifdef HAVE_SLP
SLPHandle m_handle;
AsyncThread *m_thread;
TQString m_operationServiceUrl; // for findAttributes()/foundAttributes()
friend class FindSrvTypesThread;
friend class FindSrvsThread;
friend class FindAttrsThread;
friend class FindScopesThread;
friend SLPBoolean srvTypeCallback(SLPHandle hslp,
const char* srvtypes,
SLPError errcode,
void* cookie);
friend SLPBoolean srvTypeCallbackAsync(SLPHandle hslp,
const char* srvtypes,
SLPError errcode,
void* cookie);
friend SLPBoolean srvUrlCallback(SLPHandle hslp,
const char* srvurl,
unsigned short lifetime,
SLPError errcode,
void* cookie);
friend SLPBoolean srvUrlCallbackAsync(SLPHandle hslp,
const char* srvurl,
unsigned short lifetime,
SLPError errcode,
void* cookie);
friend SLPBoolean srvAttrCallback(SLPHandle hslp,
const char* attrlist,
SLPError errcode,
void* cookie);
friend SLPBoolean srvAttrCallbackAsync(SLPHandle hslp,
const char* attrlist,
SLPError errcode,
void* cookie);
SLPBoolean handleSrvTypeCallback(const char* srvtypes,
SLPError errcode);
SLPBoolean handleSrvTypeCallbackAsync(const char* srvtypes,
SLPError errcode);
SLPBoolean handleSrvUrlCallback(const char* srvUrl,
unsigned short lifetime,
SLPError errcode);
SLPBoolean handleSrvUrlCallbackAsync(const char* srvUrl,
unsigned short lifetime,
SLPError errcode);
SLPBoolean handleAttrCallback(const char* attrlist,
SLPError errcode);
SLPBoolean handleAttrCallbackAsync(const char* attrlist,
SLPError errcode);
#endif
};
KServiceLocator::KServiceLocator(const TQString &lang, bool async) :
TQObject(0, "KServiceLocator") {
d = new KServiceLocatorPrivate(this, lang, async);
}
KServiceLocatorPrivate::KServiceLocatorPrivate(KServiceLocator *ksl,
const TQString &lang,
bool async) :
m_ksl(ksl),
m_opened(false),
m_abort(false),
m_lang(lang),
m_async(async) {
#ifdef HAVE_SLP
m_thread = 0;
#endif
}
#ifdef HAVE_SLP /** The real SLP implementations ********************** */
/* ****** *** ****** *** ****** */
/* Signals for async events */
/* ****** *** ****** *** ****** */
const int MinLastSignalEventType = 45001;
const int LastServiceTypeSignalEventType = 45001;
const int LastServiceSignalEventType = 45002;
const int LastAttributesSignalEventType = 45003;
const int MaxLastSignalEventType = 45003;
class LastSignalEvent : public TQCustomEvent
{
private:
bool m_success;
public:
LastSignalEvent(int type, bool s) :
TQCustomEvent(type),
m_success(s)
{};
int success() const { return m_success; };
};
const int FoundServiceTypesEventType = 45012;
class FoundServiceTypesEvent : public TQCustomEvent
{
private:
TQString m_srvtypes;
public:
FoundServiceTypesEvent(const char *srvtypes) :
TQCustomEvent(FoundServiceTypesEventType),
m_srvtypes(srvtypes)
{};
TQString srvtypes() const { return m_srvtypes; };
};
const int FoundServiceEventType = 45013;
class FoundServiceEvent : public TQCustomEvent
{
private:
TQString m_srvUrl;
unsigned short m_lifetime;
public:
FoundServiceEvent(const char *srvUrl, unsigned short lifetime) :
TQCustomEvent(FoundServiceEventType),
m_srvUrl(srvUrl),
m_lifetime(lifetime)
{};
TQString srvUrl() const { return m_srvUrl; };
unsigned short lifetime() const { return m_lifetime; };
};
const int FoundAttributesEventType = 45014;
class FoundAttributesEvent : public TQCustomEvent
{
private:
TQString m_attributes;
public:
FoundAttributesEvent(const char *attributes) :
TQCustomEvent(FoundAttributesEventType),
m_attributes(attributes)
{};
TQString attributes() const { return m_attributes; };
};
const int FoundScopesEventType = 45015;
class FoundScopesEvent : public TQCustomEvent
{
private:
TQString m_scopes;
public:
FoundScopesEvent(const char *scopes) :
TQCustomEvent(FoundScopesEventType),
m_scopes(scopes)
{};
TQString scopes() const { return m_scopes; };
};
/* ****** *** ****** *** ****** */
/* Callbacks */
/* ****** *** ****** *** ****** */
SLPBoolean srvTypeCallback(SLPHandle,
const char* srvtypes,
SLPError errcode,
void* cookie) {
KServiceLocatorPrivate *ksl = (KServiceLocatorPrivate*) cookie;
return ksl->handleSrvTypeCallback(srvtypes, errcode);
}
SLPBoolean srvTypeCallbackAsync(SLPHandle,
const char* srvtypes,
SLPError errcode,
void* cookie) {
KServiceLocatorPrivate *ksl = (KServiceLocatorPrivate*) cookie;
if ((errcode != SLP_OK) || ksl->m_abort) {
TQApplication::postEvent(ksl->m_ksl, new LastSignalEvent(LastServiceTypeSignalEventType,
(errcode == SLP_OK) ||
(errcode == SLP_LAST_CALL) ||
ksl->m_abort));
return SLP_FALSE;
}
TQApplication::postEvent(ksl->m_ksl, new FoundServiceTypesEvent(srvtypes));
return SLP_TRUE;
}
SLPBoolean srvUrlCallback(SLPHandle,
const char* srvurl,
unsigned short lifetime,
SLPError errcode,
void* cookie) {
KServiceLocatorPrivate *ksl = (KServiceLocatorPrivate*) cookie;
return ksl->handleSrvUrlCallback(srvurl, lifetime, errcode);
}
SLPBoolean srvUrlCallbackAsync(SLPHandle,
const char* srvurl,
unsigned short lifetime,
SLPError errcode,
void* cookie) {
KServiceLocatorPrivate *ksl = (KServiceLocatorPrivate*) cookie;
if ((errcode != SLP_OK) || ksl->m_abort) {
TQApplication::postEvent(ksl->m_ksl, new LastSignalEvent(LastServiceSignalEventType,
(errcode == SLP_OK) ||
(errcode == SLP_LAST_CALL) ||
ksl->m_abort));
return SLP_FALSE;
}
TQApplication::postEvent(ksl->m_ksl,
new FoundServiceEvent(srvurl, lifetime));
return SLP_TRUE;
}
SLPBoolean srvAttrCallback(SLPHandle,
const char* attrlist,
SLPError errcode,
void* cookie) {
KServiceLocatorPrivate *ksl = (KServiceLocatorPrivate*) cookie;
return ksl->handleAttrCallback(attrlist, errcode);
}
SLPBoolean srvAttrCallbackAsync(SLPHandle,
const char* attrlist,
SLPError errcode,
void* cookie) {
KServiceLocatorPrivate *ksl = (KServiceLocatorPrivate*) cookie;
if ((errcode != SLP_OK) || ksl->m_abort) {
TQApplication::postEvent(ksl->m_ksl,
new LastSignalEvent(LastAttributesSignalEventType,
(errcode == SLP_OK) ||
(errcode == SLP_LAST_CALL) ||
ksl->m_abort));
return SLP_FALSE;
}
TQApplication::postEvent(ksl->m_ksl,
new FoundAttributesEvent(attrlist));
return SLP_TRUE;
}
/* ****** *** ****** *** ****** */
/* Threads for async events */
/* ****** *** ****** *** ****** */
class AsyncThread : public TQThread {
protected:
SLPHandle m_handle;
KServiceLocatorPrivate *m_parent;
AsyncThread(SLPHandle handle, KServiceLocatorPrivate *parent) :
m_handle(handle),
m_parent(parent) {
}
};
class FindSrvTypesThread : public AsyncThread {
TQString m_namingAuthority, m_scopeList;
public:
FindSrvTypesThread(SLPHandle handle,
KServiceLocatorPrivate *parent,
const char *namingAuthority,
const char *scopeList) :
AsyncThread(handle, parent),
m_namingAuthority(namingAuthority),
m_scopeList(scopeList){
}
virtual void run() {
SLPError e;
e = SLPFindSrvTypes(m_handle,
m_namingAuthority.latin1(),
m_scopeList.latin1(),
srvTypeCallbackAsync,
m_parent);
if (e != SLP_OK)
TQApplication::postEvent(m_parent->m_ksl,
new LastSignalEvent(LastServiceTypeSignalEventType,
false));
}
};
class FindSrvsThread : public AsyncThread {
TQString m_srvUrl, m_scopeList, m_filter;
public:
FindSrvsThread(SLPHandle handle,
KServiceLocatorPrivate *parent,
const char *srvUrl,
const char *scopeList,
const char *filter) :
AsyncThread(handle, parent),
m_srvUrl(srvUrl),
m_scopeList(scopeList),
m_filter(filter) {
}
virtual void run() {
SLPError e;
e = SLPFindSrvs(m_handle,
m_srvUrl.latin1(),
m_scopeList.isNull() ? "" : m_scopeList.latin1(),
m_filter.isNull() ? "" : m_filter.latin1(),
srvUrlCallbackAsync,
m_parent);
if (e != SLP_OK)
TQApplication::postEvent(m_parent->m_ksl,
new LastSignalEvent(LastServiceSignalEventType,
false));
}
};
class FindAttrsThread : public AsyncThread {
TQString m_srvUrl, m_scopeList, m_attrIds;
public:
FindAttrsThread(SLPHandle handle,
KServiceLocatorPrivate *parent,
const char *srvUrl,
const char *scopeList,
const char *attrIds) :
AsyncThread(handle, parent),
m_srvUrl(srvUrl),
m_scopeList(scopeList),
m_attrIds(attrIds) {
}
virtual void run() {
SLPError e;
e = SLPFindAttrs(m_handle,
m_srvUrl.latin1(),
m_scopeList.isNull() ? "" : m_scopeList.latin1(),
m_attrIds.isNull() ? "" : m_attrIds.latin1(),
srvAttrCallbackAsync,
m_parent);
if (e != SLP_OK)
TQApplication::postEvent(m_parent->m_ksl,
new LastSignalEvent(LastAttributesSignalEventType,
false));
}
};
class FindScopesThread : public AsyncThread {
public:
FindScopesThread(SLPHandle handle,
KServiceLocatorPrivate *parent) :
AsyncThread(handle, parent){
}
virtual void run() {
SLPError e;
char *_scopelist;
e = SLPFindScopes(m_handle, &_scopelist);
if (e != SLP_OK) {
TQApplication::postEvent(m_parent->m_ksl,
new FoundScopesEvent(""));
return;
}
TQString scopeList(_scopelist);
SLPFree(_scopelist);
TQApplication::postEvent(m_parent->m_ksl,
new FoundScopesEvent(scopeList.latin1()));
}
};
KServiceLocatorPrivate::~KServiceLocatorPrivate() {
if (m_thread) {
m_abort = true;
m_thread->wait();
delete m_thread;
m_thread = 0; // important, because event handler will run
}
if (m_opened)
SLPClose(m_handle);
}
KServiceLocator::~KServiceLocator() {
delete d;
}
bool KServiceLocator::available() {
return d->ensureOpen();
}
void KServiceLocator::abortOperation() {
d->m_abort = true;
}
bool KServiceLocatorPrivate::ensureOpen() {
SLPError e;
if (m_opened)
return true;
e = SLPOpen(m_lang.latin1(), SLP_FALSE, &m_handle);
if (e != SLP_OK) {
kdError() << "KServiceLocator: error while opening:" << e <<endl;
return false;
}
m_opened = true;
return true;
}
bool KServiceLocator::findServiceTypes(const TQString &namingAuthority,
const TQString &scopeList) {
if (!d->ensureOpen())
return false;
if (d->m_thread)
return false;
d->m_abort = false;
if (d->m_async) {
d->m_thread = new FindSrvTypesThread(d->m_handle,
d,
namingAuthority.isNull() ? "*" : namingAuthority.latin1(),
scopeList.isNull() ? "" : scopeList.latin1());
d->m_thread->start();
return true;
}
else {
SLPError e;
e = SLPFindSrvTypes(d->m_handle,
namingAuthority.isNull() ? "*" : namingAuthority.latin1(),
scopeList.isNull() ? "" : scopeList.latin1(),
srvTypeCallback,
d);
return e == SLP_OK;
}
}
bool KServiceLocator::findServices(const TQString &srvtype,
const TQString &filter,
const TQString &scopeList) {
if (!d->ensureOpen())
return false;
if (d->m_thread)
return false;
d->m_abort = false;
if (d->m_async) {
d->m_thread = new FindSrvsThread(d->m_handle,
d,
srvtype.latin1(),
scopeList.isNull() ? "" : scopeList.latin1(),
filter.isNull() ? "" : filter.latin1());
d->m_thread->start();
return true;
}
else {
SLPError e;
e = SLPFindSrvs(d->m_handle,
srvtype.latin1(),
scopeList.isNull() ? "" : scopeList.latin1(),
filter.isNull() ? "" : filter.latin1(),
srvUrlCallback,
d);
return e == SLP_OK;
}
}
bool KServiceLocator::findAttributes(const TQString &serviceUrl,
const TQString &attributeIds) {
if (!d->ensureOpen())
return false;
if (d->m_thread)
return false;
d->m_abort = false;
d->m_operationServiceUrl = serviceUrl;
if (d->m_async) {
d->m_thread = new FindAttrsThread(d->m_handle,
d,
serviceUrl.latin1(),
"",
attributeIds.isNull() ? "" : attributeIds.latin1());
d->m_thread->start();
return true;
}
else {
SLPError e;
e = SLPFindAttrs(d->m_handle,
serviceUrl.latin1(),
"",
attributeIds.isNull() ? "" : attributeIds.latin1(),
srvAttrCallback,
d);
return e == SLP_OK;
}
}
bool KServiceLocator::findScopes() {
if (!d->ensureOpen())
return false;
if (d->m_thread)
return false;
d->m_abort = false;
if (d->m_async) {
d->m_thread = new FindScopesThread(d->m_handle, d);
d->m_thread->start();
return true;
}
else {
SLPError e;
char *_scopelist;
TQStringList scopeList;
e = SLPFindScopes(d->m_handle, &_scopelist);
if (e != SLP_OK)
return false;
scopeList = parseCommaList(_scopelist);
SLPFree(_scopelist);
emit foundScopes(scopeList);
return true;
}
}
SLPBoolean KServiceLocatorPrivate::handleSrvTypeCallback(const char* srvtypes,
SLPError errcode) {
if ((errcode != SLP_OK) || m_abort) {
m_ksl->emitLastServiceTypeSignal((errcode == SLP_OK) ||
(errcode == SLP_LAST_CALL) ||
m_abort);
return SLP_FALSE;
}
m_ksl->emitFoundServiceTypes(srvtypes);
return SLP_TRUE;
}
SLPBoolean KServiceLocatorPrivate::handleSrvUrlCallback(const char* srvurl,
unsigned short lifetime,
SLPError errcode) {
if ((errcode != SLP_OK) || m_abort) {
m_ksl->emitLastServiceSignal((errcode == SLP_OK) ||
(errcode == SLP_LAST_CALL) ||
m_abort);
return SLP_FALSE;
}
m_ksl->emitFoundService(srvurl, lifetime);
return SLP_TRUE;
}
SLPBoolean KServiceLocatorPrivate::handleAttrCallback(const char* attrlist,
SLPError errcode) {
if ((errcode != SLP_OK) || m_abort) {
m_ksl->emitLastAttributesSignal((errcode == SLP_OK) ||
(errcode == SLP_LAST_CALL) ||
m_abort);
return SLP_FALSE;
}
m_ksl->emitFoundAttributes(m_operationServiceUrl, attrlist);
return SLP_TRUE;
}
void KServiceLocator::customEvent(TQCustomEvent *e) {
if ((e->type() >= MinLastSignalEventType) &&
(e->type() <= MaxLastSignalEventType)){
bool s = true;
if (d->m_thread) {
d->m_thread->wait();
delete d->m_thread;
d->m_thread = 0;
s = ((LastSignalEvent*)e)->success();
}
if (e->type() == LastServiceTypeSignalEventType)
emit lastServiceTypeSignal(s);
else if (e->type() == LastServiceSignalEventType)
emit lastServiceSignal(s);
else if (e->type() == LastAttributesSignalEventType)
emit lastAttributesSignal(s);
else
kdFatal() << "unmapped last signal type " << e->type()<< endl;
}
else if (e->type() == FoundAttributesEventType) {
emit foundAttributes(d->m_operationServiceUrl,
((FoundAttributesEvent*)e)->attributes());
}
else if (e->type() == FoundServiceEventType) {
FoundServiceEvent *fse = (FoundServiceEvent*)e;
emit foundService(fse->srvUrl(), fse->lifetime());
}
else if (e->type() == FoundServiceTypesEventType) {
emit foundServiceTypes(((FoundServiceTypesEvent*)e)->srvtypes());
}
else if (e->type() == FoundScopesEventType) {
if (d->m_thread) {
d->m_thread->wait();
delete d->m_thread;
d->m_thread = 0;
emit foundScopes(KServiceLocator::parseCommaList(((FoundScopesEvent*)e)->scopes()));
}
}
}
TQString KServiceLocator::decodeAttributeValue(const TQString &value) {
char *n;
if (value.isNull())
return value;
if (SLPUnescape(value.latin1(), &n, SLP_TRUE) != SLP_OK)
return TQString();
TQString r(n);
SLPFree(n);
return r;
}
#else /** Empty dummy functions is SLP is not available ************************* */
KServiceLocator::~KServiceLocator() {
}
bool KServiceLocator::available() {
return false;
}
void KServiceLocator::abortOperation() {
}
bool KServiceLocator::findServiceTypes(const TQString &,const TQString &) {
return false;
}
bool KServiceLocator::findServices(const TQString &,const TQString &,const TQString &) {
return false;
}
bool KServiceLocator::findAttributes(const TQString &,const TQString &) {
return false;
}
bool KServiceLocator::findScopes() {
return false;
}
void KServiceLocator::customEvent(TQCustomEvent *) {
}
TQString KServiceLocator::decodeAttributeValue(const TQString &value) {
return value;
}
#endif
/*** Private emit-helpers ***/
void KServiceLocator::emitFoundServiceTypes(TQString serviceTypes) {
emit foundServiceTypes(serviceTypes);
}
void KServiceLocator::emitFoundService(TQString serviceUrl,
int lifetime) {
emit foundService(serviceUrl, lifetime);
}
void KServiceLocator::emitFoundAttributes(TQString serviceUrl,
TQString attributes) {
emit foundAttributes(serviceUrl, attributes);
}
void KServiceLocator::emitFoundScopes(TQStringList scopeList) {
emit foundScopes(scopeList);
}
void KServiceLocator::emitLastServiceTypeSignal(bool success) {
emit lastServiceTypeSignal(success);
}
void KServiceLocator::emitLastServiceSignal(bool success) {
emit lastServiceSignal(success);
}
void KServiceLocator::emitLastAttributesSignal(bool success) {
emit lastAttributesSignal(success);
}
/*** Static helpers ***/
void KServiceLocator::parseAttributeList(const TQString &attributes,
TQMap<TQString,TQString> &attributeMap) {
TQRegExp r("\\((.*)=(.*)\\)");
r.setMinimal(true);
int pos = 0;
while (pos >= 0) {
pos = r.search(attributes, pos);
if (pos != -1) {
attributeMap[r.cap(1)] = r.cap(2);
pos += r.matchedLength();
}
}
}
TQStringList KServiceLocator::parseCommaList(const TQString &list) {
return TQStringList::split(TQChar(','), list);
}
TQString KServiceLocator::createCommaList(const TQStringList &values) {
return values.join(",");
}
TQString KServiceLocator::escapeFilter(const TQString &str) {
TQString f;
int s = str.length();
for (int i = 0; i < s; i++) {
char c = str[i];
switch(c) {
case '*':
f.append("\2a");
break;
case '(':
f.append("\28");
break;
case ')':
f.append("\29");
break;
case '\\':
f.append("\5c");
break;
case 0:
f.append("\2a");
break;
default:
f.append(c);
break;
}
}
return f;
}
#include "kservicelocator.moc"