void printPeerList( TcpConnection::Ptr conn, int ns ) {
uint8_t cmd = CMD_PSTAT;
boost::asio::write(conn->socket(),boost::asio::buffer(&cmd,1));
uint64_t blockSize;
shared_ptr<char> buf = conn->receiveBlock( blockSize );
if ( !blockSize ) return;
const char* ptr = buf.get();
uint64_t count(0);
try {
Host peer;
cout << " " << peer.printHeader() << endl;
int hostCount(0);
while( count < blockSize ) {
count += peer.unpack(ptr+count,conn->getSwapEndian());
if ( hostCount == 0 ) cout << " " << peer.print() << endl;
else if ( ns==0 || hostCount < ns) cout << alignRight(to_string(hostCount),4) << peer.print() << endl;
hostCount++;
}
if (ns!=0 && hostCount > ns) cout << " :" << endl << alignRight(to_string(hostCount),4) << peer.print() << endl;
} catch ( const exception& e) {
cerr << "printPeerList: Exception caught while parsing block: " << e.what() << endl;
}
if( count != blockSize ) {
cerr << "printPeerList: Parsing of datablock failed, count = " << count << " blockSize = " << blockSize << " bytes." << endl;
}
}
void init_accept()
{
TCPConnection::Ptr conn = TCPConnection::create( m_acceptor.get_io_service() );
m_acceptor.async_accept( conn->socket(),
boost::bind( &Server::callback_accept,
this,
conn,// 1st param for the callback fct
asio::placeholders::error ) ); // 2nd param
}
void ServerNetworkComm::init_accept()
{
TCPConnection::Ptr conn = TCPConnection::create( *m_io_service );
m_acceptor->async_accept( conn->socket(),
boost::bind( &ServerNetworkComm::callback_accept,
this,
conn,
asio::placeholders::error
)
);
}
TcpConnection::Ptr TcpConnector::connect()
{
struct sockaddr_in serverAddrIn;
std::memset(&serverAddrIn, 0, sizeof(serverAddrIn));
serverAddrIn.sin_family = AF_INET;
serverAddrIn.sin_addr.s_addr = m_remoteEndpoint.ip.value;
serverAddrIn.sin_port = ::htons(m_remoteEndpoint.port);
TcpConnection::Ptr ret = TcpConnection::create(m_remoteEndpoint);
if(-1 == ::connect(ret->getFD(), (const struct sockaddr*)&serverAddrIn, sizeof(serverAddrIn)))
SYS_EXCEPTION(NetException, "::connect:");
return ret;
}
void ServerNetworkComm::callback_send( TCPConnection::Ptr conn,
const boost::system::error_code & error )
{
if ( error )
CFerror << "Data could not be sent to [" << conn->socket().remote_endpoint()
<< "]: " << error.message() << CFendl;
}
void init_read( TCPConnection::Ptr conn, SignalFrame & buffer )
{
conn->read( buffer,
boost::bind( &Server::callback_read,
this,
conn, // 1st param for the callback fct
asio::placeholders::error ) // 2nd param
);
}
void ServerNetworkComm::init_send( TCPConnection::Ptr client, SignalFrame & frame )
{
if( is_not_null(client) )
{
client->send( frame,
boost::bind( &ServerNetworkComm::callback_send,
this,
client,
asio::placeholders::error
)
);
}
else // if the connection is null, broadcast the frame
{
std::map<TCPConnection::Ptr, ClientInfo>::iterator it = m_clients.begin();
for( ; it != m_clients.end() ; ++it )
init_send( it->first, frame );
}
}
void ServerNetworkComm::callback_accept( TCPConnection::Ptr conn,
const boost::system::error_code & error )
{
if( !error )
{
// create client info
ClientInfo& info = m_clients[conn];
info.connection = conn;
info.buffer = SignalFrame( "message", "cpath:/", "cpath:/" );
info.error_handler = boost::shared_ptr<ErrorHandler>(new ErrorHandler());
info.connection->set_error_handler( info.error_handler );
CFinfo << "New client connected from " << conn->socket().remote_endpoint().address()
<< CFendl;
init_read( info ); // init read operation for the new client
init_accept(); // wait for other clients
}
else
CFinfo << "Failed to accept a client connection: " << error.message() << CFendl;
}
void ServerNetworkComm::callback_read( TCPConnection::Ptr conn,
const boost::system::error_code & error )
{
if( !error )
{
std::string error_msg;
ClientInfo& info = m_clients[conn];
SignalFrame & buffer = info.buffer;
std::string target = buffer.node.attribute_value( "target" );
std::string receiver = buffer.node.attribute_value( "receiver" );
std::string clientid = buffer.node.attribute_value( "clientid" );
std::string frameid = buffer.node.attribute_value( "frameid" );
// check if the client is attempting to register
if( target == "client_registration" )
{
if( !info.uuid.empty() )
error_msg = "This client has already been registered.";
else
{
info.uuid = clientid;
// Build and send the reply
SignalFrame reply = buffer.create_reply();
SignalOptions & roptions = reply.options();
roptions.add("accepted", true);
roptions.flush();
this->init_send(conn, buffer );
// tell listeners a new client has arrived
SignalFrame frame("new_client_connected", "cpath:/", "cpath:/");
frame.options().add( "clientid", clientid );
call_signal( "new_client_connected", frame );
}
}
else
{
if( info.uuid.empty() )
error_msg = "The signal came from an unregistered client.";
else if( info.uuid != clientid )
error_msg = "The client id '" + info.uuid + "' (used for registration) "
+ "and '" + clientid + "' (used for identification) do not match.";
else
ServerRoot::instance().process_signal(target, receiver, clientid, frameid, buffer);
}
if( !error_msg.empty() )
this->send_frame_rejected( conn, frameid, SERVER_CORE_PATH, error_msg );
init_read( info );
}
else if( error != boost::asio::error::eof )
CFerror << "Could not read from [" << conn->socket().remote_endpoint()
<< "]: " << error.message() << CFendl;
if( error )
{
std::string uuid = m_clients[conn].uuid;
conn->disconnect();
m_clients.erase( conn );
if( error == boost::asio::error::eof )
CFinfo << "Cliemt [" << uuid << "] has disconnected. ("
<< m_clients.size() << " left)." << CFendl;
}
}
void printJobList( TcpConnection::Ptr conn, int nj ) {
uint8_t cmd = CMD_JSTAT;
boost::asio::write(conn->socket(),boost::asio::buffer(&cmd,1));
uint64_t blockSize;
shared_ptr<char> buf = conn->receiveBlock( blockSize );
if ( !blockSize ) return;
const char* ptr = buf.get();
uint64_t count(0);
try {
typedef std::shared_ptr<Job::Info> InfoPtr;
vector<InfoPtr> infos;
size_t maxLength[2] = {0,0}; // jobName & user
//cout << Job::Info::printHeader() << endl;
while( count < blockSize ) {
InfoPtr info(new Job::Info);
count += info->unpack(ptr+count,conn->getSwapEndian());
maxLength[0] = max(maxLength[0],info->name.size());
maxLength[1] = max(maxLength[1],info->user.size()+info->host.size());
infos.push_back(info);
}
std::sort( infos.begin(), infos.end(), [](const InfoPtr& a, const InfoPtr& b) {
if(a->step != b->step) return (a->step > b->step);
if(a->priority != b->priority) return (a->priority > b->priority);
return (a->id < b->id);
} );
int nJobs = infos.size();
bool addComma(false);
if ( nj != 0 ) {
if ( nj < nJobs ) addComma = true;
nJobs = min(nj,nJobs);
}
cout << alignRight("#", 4) << alignRight("ID", 5) << alignCenter("type", 10) << alignCenter("started", 20); // + alignCenter("started", 20);
cout << alignCenter("name", maxLength[0]+4) + alignCenter("user", maxLength[1]+5) + alignCenter("priority", 8) + alignCenter("state", 8);
cout << endl;
ptime now = boost::posix_time::second_clock::local_time();
for( int i=0; i<nJobs; ++i ) {
if( i == nJobs-1 ) {
i = infos.size()-1;
if (addComma) cout << " :" << endl;
}
string info = alignRight(std::to_string(infos[i]->id), 5) + alignCenter(infos[i]->typeString, 10);
string startedString;
if ( infos[i]->startedTime < now ) startedString = to_iso_extended_string(infos[i]->startedTime);
else startedString = to_iso_extended_string(infos[i]->submitTime);
info += alignCenter(startedString, 20);
info += alignCenter(infos[i]->name, maxLength[0]+4) + alignLeft(infos[i]->user + "@" + infos[i]->host, maxLength[1]+5);
info += alignCenter(std::to_string(infos[i]->priority), 8);
info += alignCenter(Job::stateTag(infos[i]->state), 3) + alignLeft(infos[i]->progressString, 15);
cout << alignRight(to_string(i+1),4) << info << endl;
}
} catch ( const exception& e) {
cerr << "printJobList: Exception caught while parsing block: " << e.what() << endl;
}
if( count != blockSize ) {
cerr << "printJobList: Parsing of datablock failed, count = " << count << " blockSize = " << blockSize << " bytes." << endl;
}
}
