bool init(RcfConfigT *)
{
Lock lock(getRootMutex());
if (gInitRefCount == 0)
{
gpGlobals = new Globals();
// General initialization.
RCF::getCurrentTimeMs();
initAmiHandlerCache();
initLogManager();
initAmi();
initObjectPool();
initPerformanceData();
initThreadLocalData();
initTpHandlerCache();
#if RCF_FEATURE_FILETRANSFER==1
initFileIoThreadPool();
#endif
#if RCF_FEATURE_SF==1
initRegistrySingleton();
#endif
#ifdef BOOST_WINDOWS
initWinsock();
initPfnGetUserName();
#endif
#ifndef BOOST_WINDOWS
// Disable broken pipe signals on non-Windows platforms.
std::signal(SIGPIPE, SIG_IGN);
#endif
#if RCF_FEATURE_SSPI==1
SspiInitialize();
#endif
#if RCF_FEATURE_SERVER==1
// Start the AMI thread pool.
gpAmiThreadPool = new AmiThreadPool();
gpAmiThreadPool->start();
#endif
}
++gInitRefCount;
return gInitRefCount == 1;
}
Server::Server () : connectionsPool (100),
connectionsScheduler (this),
listenThreads (&connectionsScheduler, this),
authMethodFactory (&cryptAlgoManager),
validatorFactory (),
securityManager (&validatorFactory, &authMethodFactory)
{
toReboot = false;
autoRebootEnabled = true;
rebooting = false;
maxConnections = 0;
serverReady = false;
throttlingRate = 0;
path = 0;
vhostHandler = NULL;
purgeThreadsThreshold = 1;
freeThreads = 0;
logManager = new LogManager (&filtersFactory);
xmlValidator = new XmlValidator ();
initLogManager ();
connectionsPoolLock.init ();
configurationFileManager = NULL;
genMainConf = NULL;
}
bool init(RcfConfigT *)
{
Lock lock(getRootMutex());
if (gInitRefCount == 0)
{
gpGlobals = new Globals();
// General initialization.
RCF::getCurrentTimeMs();
initAmiHandlerCache();
IdentityFilter::spFilterDescription = new FilterDescription("identity filter", RcfFilter_Identity, true);
XorFilter::spFilterDescription = new FilterDescription("Xor filter", RcfFilter_Xor, true);
initFileIoThreadPool();
initAmi();
#if defined(BOOST_WINDOWS)
initNamedPipeEndpointSerialization();
#endif
initObjectPool();
initPerformanceData();
//#if defined(sun) || defined(__sun) || defined(__sun__)
//if (!pThreadLocalDataPtr) pThreadLocalDataPtr = new ThreadLocalDataPtr;
//#endif
initThreadLocalData();
initTpHandlerCache();
#ifdef RCF_USE_OPENSSL
//initOpenSsl();
initOpenSslEncryptionFilterDescription();
#endif
#ifdef RCF_USE_ZLIB
initZlibCompressionFilterDescriptions();
#endif
initLogManager();
#ifdef RCF_USE_SF_SERIALIZATION
initRegistrySingleton();
initTcpEndpointSerialization();
initUdpEndpointSerialization();
#if defined(BOOST_WINDOWS)
initWin32NamedPipeEndpointSerialization();
#endif
#ifdef RCF_HAS_LOCAL_SOCKETS
initUnixLocalEndpointSerialization();
#endif
#endif // RCF_USE_SF_SERIALIZATION
#ifdef BOOST_WINDOWS
initWinsock();
initPfnGetUserName();
SspiInitialize();
#endif
#ifndef BOOST_WINDOWS
// Disable broken pipe signals.
std::signal(SIGPIPE, SIG_IGN);
#endif
// Start the AMI thread pool.
gpAmiThreadPool = new AmiThreadPool();
gpAmiThreadPool->start();
}
++gInitRefCount;
return gInitRefCount == 1;
}
/*!
Here is loaded the configuration of the server.
The configuration file is a XML file.
Return nonzero on errors.
*/
int Server::initialize ()
{
const char *data;
#ifdef WIN32
envString = GetEnvironmentStrings ();
#endif
connectionsMutex = new Mutex ();
threadsMutex = new Mutex ();
/* Store the default values. */
nStaticThreads = 20;
nMaxThreads = 50;
currentThreadID = 0;
freeThreads = 0;
connectionTimeout = MYSERVER_SEC (180);
endServer = false;
purgeThreadsThreshold = 1;
throttlingRate = 0;
maxConnections = 0;
maxConnectionsToAccept = 0;
if (genMainConf)
{
configurationFileManager = genMainConf (this,
mainConfigurationFile.c_str ());
if (!configurationFileManager)
{
log (MYSERVER_LOG_MSG_ERROR,
_("Error while loading the %s configuration file"),
mainConfigurationFile.c_str ());
return -1;
}
}
else
{
XmlMainConfiguration *xmlMainConf = new XmlMainConfiguration ();
if (xmlMainConf->open (mainConfigurationFile.c_str ()))
{
log (MYSERVER_LOG_MSG_ERROR,
_("Error while loading the %s configuration file"),
mainConfigurationFile.c_str ());
delete xmlMainConf;
return -1;
}
configurationFileManager = xmlMainConf;
}
configurationFileManager->readData (&hashedDataTrees, &hashedData);
/* Process console colors information. */
list<string> levels = logManager->getLoggingLevelsByNames ();
for (list<string>::iterator it = levels.begin (); it != levels.end (); it++)
{
string fg (*it + "_fg");
string bg (*it + "_bg");
string fullFg ("log_color." + *it + "_fg");
string fullBg ("log_color." + *it + "_bg");
data = getData (fullFg.c_str ());
if (data)
consoleColors[fg] = string (data);
data = getData (fullBg.c_str ());
if (data)
consoleColors[bg] = string (data);
}
initLogManager ();
data = getData ("server.buffer_size", "102400");
if (data)
buffersize = (atol (data) > 81920) ? atol (data) : 81920 ;
data = getData ("connection.timeout");
if (data)
connectionTimeout = MYSERVER_SEC ((u_long) atol (data));
data = getData ("server.static_threads");
if (data)
nStaticThreads = atoi (data);
data = getData ("server.max_threads");
if (data)
nMaxThreads = atoi (data);
/* Get the max connections number to allow. */
data = getData ("server.max_connections");
if (data)
maxConnections = atoi (data);
/* Get the max connections number to accept. */
data = getData ("server.max_accepted_connections");
if (data)
maxConnectionsToAccept = atoi (data);
data = getData ("server.connections_pool.size");
if (data)
connectionsPool.init (atoi (data));
/* Get the default throttling rate to use on connections. */
data = getData ("connection.throttling");
if (data)
throttlingRate = (u_long) atoi (data);
data = getData ("server.max_log_size");
if (data)
maxLogFileSize=(u_long) atol (data);
data = getData ("server.max_files_cache");
if (data)
{
u_long maxSize = (u_long) atol (data);
cachedFiles.initialize (maxSize);
}
else
cachedFiles.initialize (1 << 23);
data = getData ("server.temp_directory");
if (data)
{
string tmpPath (data);
FilesUtility::completePath (tmpPath);
FilesUtility::setTmpPath (tmpPath);
}
else
FilesUtility::resetTmpPath ();
data = getData ("server.max_file_cache");
if (data)
{
u_long maxSize = (u_long) atol (data);
cachedFiles.setMaxSize (maxSize);
}
data = getData ("server.min_file_cache");
if (data)
{
u_long minSize = (u_long) atol (data);
cachedFiles.setMinSize (minSize);
}
data = getData ("server.uid");
if (data)
uid.assign (data);
else
uid.assign ("");
data = getData ("server.gid");
if (data)
gid.assign (data);
else
gid.assign ("");
data = getData ("server.max_servers");
if (data)
{
int maxServersProcesses = atoi (data);
getProcessServerManager ()->setMaxServers (maxServersProcesses);
}
return 0;
}
