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// Ivy.cpp: implementation of the Ivy class.
//
//////////////////////////////////////////////////////////////////////
#include "IvyStdAfx.h"
#include "Ivy.h"
#include "IvyWatcher.h"
#include "IvyApplication.h"
#include "IvySynchroWnd.h"
#include "IvyBinding.h"
#include "intervalRegexp.h"
#define DEFAULT_ADDR "127.255.255.255"
#define SEPARATOR ":"
#define DEFAULT_PORT "2010"
#define DEFAULT_DOMAIN DEFAULT_ADDR/**/SEPARATOR/**/DEFAULT_PORT
//////////////////////////////////////////////////////////////////////
// Construction/Destruction
//////////////////////////////////////////////////////////////////////
Ivy::~Ivy()
{
// remove all app and stop watcher
stop();
regexp_out.clear();
if ( synchronous )
{
for ( unsigned int i = 0; i < callbacks.size(); i ++)
{
delete callbacks[i];
}
}
callbacks.clear();
// if ( direct_callback ) delete direct_callback;
// if ( application_callback ) delete application_callback;
delete watcher;
// server->Close();
delete server;
if ( synchronous )
{
delete IvySynchronousCallback::m_synchro;
delete application_callback;
}
}
Ivy::Ivy(const char* name, const char * ready, IvyApplicationCallback *callback, bool Synchronous)
{
InitializeCriticalSection( &m_application_cs );
regexp_id = 0;
synchronous = Synchronous;
if ( synchronous )
IvySynchronousCallback::m_synchro = new IvySynchroWnd();
ready_message = ready;
ApplicationName = name;
binding_callback = NULL;
application_callback = synchronous ? new IvySynchronousApplicationCallback(callback) : callback;
direct_callback = NULL;
die_callback = NULL;
server = new IvyApplication(this);
applicationPort = server->Create();
if ( !applicationPort )
{
TRACE( " Can't Create server %d\n", server->GetLastError( ) );
return;
}
ApplicationID = GenApplicationUniqueIdentifier();
watcher = new IvyWatcher(this);
}
const char *Ivy::GenApplicationUniqueIdentifier()
{
static char appid[2048];
unsigned long curtime;
curtime = GetTickCount();
srand( curtime );
sprintf(appid,"%d:%lu:%d",rand(),curtime,applicationPort);
return appid;
}
const char * Ivy::GetDomain(const char *domainlist)
{
// determine domain to use
// the syntax of domain is "IpBroadcastAddr1,IpBroadcastAddr2,IpBroadcastAddr2:port"
if ( domainlist )
{
domain = domainlist;
}
if ( domain.empty() )
{
#ifndef UNDER_CE
size_t requiredSize;
getenv_s( &requiredSize, NULL, 0, "IVYBUS");
if ( requiredSize )
{
char *env = (char*)malloc( requiredSize * sizeof(char));
getenv_s( &requiredSize, env, requiredSize, "IVYBUS");
domain = env;
free( env );
}
#endif
if ( domain.empty() )
domain = DEFAULT_DOMAIN;
}
// first find our UDP port
size_t sep_index = domain.rfind( ':' );
if ( sep_index == -1 )
{
domain = DEFAULT_DOMAIN;
TRACE(" Missing ':' in domain list using default domain %s\n", domain );
}
if ( sep_index == 0 )
{
/* missing addr using localhost */
domain.insert(0,DEFAULT_ADDR);
}
return domain.c_str();
}
void Ivy::start(const char *domain)
{
watcher->start(domain);
}
void Ivy::stop()
{
watcher->stop();
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; ++iter )
{
IvyApplication *app = *iter;
app->Close();
delete app;
}
applications.clear();
}
int Ivy::BindMsg(const char *regexp, IvyMessageCallback *cb)
{
char buffer[8192];
SubstituteInterval( regexp, buffer, sizeof( buffer ) );
regexp_out.push_back( buffer );
callbacks.push_back( synchronous ? new IvySynchronousMessageCallback(cb) : cb );
/* send to already connected */
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; ++iter )
{
IvyApplication *app = *iter;
app->SendMsg(IvyApplication::AddRegexp, regexp_id, buffer );
}
return regexp_id++;
}
int Ivy::BindMsg( IvyMessageCallback *cb, const char *regexp, ... )
{
char buffer[4096];
char buffer2[8192];
va_list args;
va_start( args, regexp ); /* Initialize variable arguments. */
_vsnprintf_s( buffer, sizeof(buffer), sizeof(buffer)-1, regexp, args );
va_end( args);
SubstituteInterval( buffer, buffer2, sizeof( buffer2 ) );
regexp_out.push_back( buffer2 );
callbacks.push_back( synchronous ? new IvySynchronousMessageCallback(cb) : cb );
/* send to already connected */
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; ++iter )
{
IvyApplication *app = *iter;
app->SendMsg(IvyApplication::AddRegexp, regexp_id, buffer2 );
}
return regexp_id++;
}
void Ivy::UnbindMsg(int id)
{
regexp_out[ id ] = "";
callbacks[ id ] = NULL;
/* send to already connected */
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; ++iter )
{
IvyApplication *app = *iter;
app->SendMsg(IvyApplication::DelRegexp, id, "" );
}
}
void Ivy::BindDirectMsg(IvyDirectMessageCallback *callback)
{
direct_callback = callback;
}
unsigned int Ivy::GetApplicationPort()
{
return applicationPort;
}
void Ivy::AddApplication(IvyApplication *app)
{
EnterCriticalSection( &m_application_cs );
// Check for disconnected Application
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; )
{
IvyApplication *disc_app = *iter++;
if ( disc_app->m_hSocket == INVALID_SOCKET )
{
applications.remove( disc_app );
delete disc_app;
}
}
applications.push_back( app );
LeaveCriticalSection( &m_application_cs );
SendSubscriptions( app );
}
void Ivy::RemoveApplication(IvyApplication * app)
{
/// OLD NOT called because of deallocation PB
// the real remove is done at arrival of a new Application
// or at the bus Stop
TRACE( "Ivy::RemoveApplication %lu\n", app );
if ( app )
{
EnterCriticalSection( &m_application_cs );
applications.remove( app );
LeaveCriticalSection( &m_application_cs );
delete app;
}
}
void Ivy::SendSubscriptions(IvyApplication *app)
{
app->SendMsg( IvyApplication::StartRegexp, GetApplicationPort(), ApplicationName.c_str());
for ( unsigned int id = 0 ; id < regexp_out.size(); id++ )
{
const ivy::string& regexp = regexp_out[id];
if ( !regexp.empty() )
app->SendMsg( IvyApplication::AddRegexp, id, regexp.c_str());
}
app->SendMsg( IvyApplication::EndRegexp, 0);
}
int Ivy::SendMsg(const char * message, ... )
{
int count = 0;
char buffer[4096];
va_list args;
va_start( args, message ); /* Initialize variable arguments. */
_vsnprintf_s( buffer, sizeof(buffer), sizeof(buffer)-1, message, args );
va_end( args);
/* send to already connected */
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; ++iter )
{
IvyApplication *app = *iter;
count += app->SendMsg( buffer );
}
return count;
}
void Ivy::SendDieMsg( IvyApplication *app )
{
app->SendMsg( IvyApplication::Die, 0 );
}
IvyApplication * Ivy::GetApplication(const char *name)
{
IvyApplication *app = NULL;
EnterCriticalSection( &m_application_cs );
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; )
{
IvyApplication *ap = *iter++;
if ( (ap->m_hSocket != INVALID_SOCKET) && ap->appname == name )
{
app = ap;
break; // dont return because of LeaveCriticalSection !!!
}
}
LeaveCriticalSection( &m_application_cs );
return app;
}
void Ivy::CallMessageCallback(IvyApplication *app, int id, int argc, const char ** argv)
{
IvyMessageCallback *callback;
callback = callbacks[ id ];
if ( callback )
{
callback->OnMessage( app, argc, argv );
}
}
void Ivy::CallDirectMessageCallback(IvyApplication *app, int id, const char *arg)
{
if ( direct_callback )
{
direct_callback->OnDirectMessage( app, id, arg );
}
}
bool Ivy::CallDieCallback(IvyApplication *app, int id, const char *arg)
{
if ( die_callback )
{
return die_callback->OnDie( app, id, arg );
}
return TRUE;
}
void Ivy::CallApplicationConnectedCallback(IvyApplication * app)
{
if ( application_callback )
{
application_callback->OnApplicationConnected( app );
}
}
void Ivy::CallApplicationDisconnectedCallback(IvyApplication * app)
{
if ( application_callback )
{
application_callback->OnApplicationDisconnected( app );
}
}
void Ivy::CallBindingAddCallback(IvyApplication * app, int id, const char * regexp)
{
if ( binding_callback )
{
binding_callback->OnAddBind( app, id, regexp );
}
}
void Ivy::CallBindingRemoveCallback(IvyApplication * app, int id, const char * regexp)
{
if ( binding_callback )
{
binding_callback->OnRemoveBind( app, id, regexp );
}
}
void Ivy::CallBindingFilterCallback(IvyApplication * app, int id, const char * regexp)
{
if ( binding_callback )
{
binding_callback->OnFilterBind( app, id, regexp );
}
}
void Ivy::SendDirectMsg(IvyApplication * app, int id, const char *message)
{
app->SendMsg( IvyApplication::DirectMsg, id, message );
}
void Ivy::SetBindCallback( IvyBindingCallback* bind_callback )
{
binding_callback = synchronous ? new IvySynchronousBindingCallback(bind_callback) : bind_callback;
}
void Ivy::SetFilter(int argc, const char **argv )
{
IvyBinding::SetFilter(argc, argv );
}
bool Ivy::CheckConnected(IvyApplication * app)
{
if (app->remoteService == 0) /* old application dont check */
return false;
/* check to see if app already connected */
IvyApplicationList::iterator iter;
for ( iter = applications.begin() ; iter != applications.end() ; ++iter )
{
IvyApplication *application = *iter;
if ( application != app && application->SameApplication(app))
return true;
}
return false;
}
void Ivy::SubstituteInterval (const char *src, char *dst, size_t dst_len)
{
// pas de traitement couteux s'il n'y a rien à interpoler
if (strstr (src, "(?I") == NULL) {
strcpy (dst,src);
return;
} else {
char *curPos;
char *itvPos;
char *dstPos = dst;
curPos = (char *)src;
while ((itvPos = strstr (curPos, "(?I")) != NULL) {
// copie depuis la position courante jusqu'à l'intervalle
int lenCp, min,max;
char withDecimal;
lenCp = itvPos-curPos;
memcpy ( dstPos, curPos, lenCp);
curPos=itvPos;
dstPos += lenCp;
// extraction des paramètres de l'intervalle
sscanf (itvPos, "(?I%d#%d%c", &min, &max, &withDecimal);
// printf ("DBG> substituteInterval min=%d max=%d withDecimal=%d\n",
// min, max, (withDecimal != 'i'));
// generation et copie de l'intervalle
regexpGen (dstPos, dst_len-(dstPos-dst), min, max, (withDecimal != 'i'));
dstPos = dst + strlen (dst);
// consommation des caractères décrivant intervalle dans la chaine source
curPos = strstr (curPos, ")");
curPos++;
}
strncat (dstPos, curPos, dst_len-(dstPos-dst));
}
}
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