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version 1.115.14.1, 2006/11/03 04:52:41
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version 1.130, 2008/02/27 20:21:17
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|
|
| // | // |
| //============================================================================== | //============================================================================== |
| // | // |
| // |
|
| //%///////////////////////////////////////////////////////////////////////////// | //%///////////////////////////////////////////////////////////////////////////// |
| | |
| #include "Network.h" | #include "Network.h" |
|
|
|
| #include <Pegasus/Common/MessageQueueService.h> | #include <Pegasus/Common/MessageQueueService.h> |
| #include <Pegasus/Common/Exception.h> | #include <Pegasus/Common/Exception.h> |
| #include "ArrayIterator.h" | #include "ArrayIterator.h" |
| #include <errno.h> |
#include "HostAddress.h" |
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
|
| // Maximum iterations of Pipe processing in Monitor::run |
|
| const Uint32 maxIterations = 2; |
|
| #endif |
|
| PEGASUS_USING_STD; | PEGASUS_USING_STD; |
| | |
| PEGASUS_NAMESPACE_BEGIN | PEGASUS_NAMESPACE_BEGIN |
| | |
| static AtomicInt _connections(0); |
|
| |
|
| Mutex Monitor::_cout_mut; |
|
| // Added for NamedPipe implementation for windows |
|
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
|
| #define PIPE_INCREMENT 1 |
|
| #endif |
|
| //////////////////////////////////////////////////////////////////////////////// | //////////////////////////////////////////////////////////////////////////////// |
| // | // |
| // Monitor |
// Tickler |
| // | // |
| //////////////////////////////////////////////////////////////////////////////// | //////////////////////////////////////////////////////////////////////////////// |
| | |
| #define MAX_NUMBER_OF_MONITOR_ENTRIES 32 |
Tickler::Tickler() |
| Monitor::Monitor() |
: _listenSocket(PEGASUS_INVALID_SOCKET), |
| : _stopConnections(0), |
_clientSocket(PEGASUS_INVALID_SOCKET), |
| _stopConnectionsSem(0), |
_serverSocket(PEGASUS_INVALID_SOCKET) |
| _solicitSocketCount(0), |
|
| _tickle_client_socket(-1), |
|
| _tickle_server_socket(-1), |
|
| _tickle_peer_socket(-1) |
|
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
|
| ,_solicitPipeCount(0) |
|
| #endif |
|
| { | { |
| int numberOfMonitorEntriesToAllocate = MAX_NUMBER_OF_MONITOR_ENTRIES; |
try |
| Socket::initializeInterface(); |
|
| _entries.reserveCapacity(numberOfMonitorEntriesToAllocate); |
|
| |
|
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
|
| _entries_pipe.reserveCapacity(numberOfMonitorEntriesToAllocate); |
|
| #endif |
|
| // setup the tickler |
|
| initializeTickler(); |
|
| |
|
| // Start the count at 1 because initilizeTickler() |
|
| // has added an entry in the first position of the |
|
| // _entries array |
|
| for( int i = 1; i < numberOfMonitorEntriesToAllocate; i++ ) |
|
| { | { |
| _MonitorEntry entry(0, 0, 0); |
_initialize(); |
| _entries.append(entry); |
|
| } | } |
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
catch (...) |
| for( int i = 1; i < numberOfMonitorEntriesToAllocate; i++ ) |
|
| { | { |
| _MonitorEntry entry(0, 0, 0); |
_uninitialize(); |
| _entries_pipe.append(entry); |
throw; |
| } | } |
| #endif |
|
| } | } |
| | |
| Monitor::~Monitor() |
Tickler::~Tickler() |
| { | { |
| uninitializeTickler(); |
_uninitialize(); |
| Socket::uninitializeInterface(); |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "returning from monitor destructor"); |
|
| } | } |
| void Monitor::uninitializeTickler(){ |
|
| | |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, "uninitializing interface"); |
#if defined(PEGASUS_OS_TYPE_UNIX) |
| | |
| try{ |
// Use an anonymous pipe for the tickle connection. |
| if(_tickle_peer_socket >= 0) |
|
| { |
void Tickler::_initialize() |
| Socket::close(_tickle_peer_socket); |
|
| } |
|
| if(_tickle_client_socket >= 0) |
|
| { | { |
| Socket::close(_tickle_client_socket); |
int fds[2]; |
| } |
|
| if(_tickle_server_socket >= 0) |
if (pipe(fds) == -1) |
| { | { |
| Socket::close(_tickle_server_socket); |
MessageLoaderParms parms( |
| |
"Common.Monitor.TICKLE_CREATE", |
| |
"Received error number $0 while creating the internal socket.", |
| |
getSocketError()); |
| |
throw Exception(parms); |
| } | } |
| |
|
| |
_serverSocket = fds[0]; |
| |
_clientSocket = fds[1]; |
| } | } |
| catch(...) |
|
| |
#else |
| |
|
| |
// Use an external loopback socket connection to allow the tickle socket to |
| |
// be included in the select() array on non-Unix platforms. |
| |
|
| |
void Tickler::_initialize() |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
// |
| "Failed to close tickle sockets"); |
// Set up the addresses for the listen, client, and server sockets |
| |
// based on whether IPv6 is enabled. |
| |
// |
| |
|
| |
Socket::initializeInterface(); |
| |
|
| |
# ifdef PEGASUS_ENABLE_IPV6 |
| |
struct sockaddr_storage listenAddress; |
| |
struct sockaddr_storage clientAddress; |
| |
struct sockaddr_storage serverAddress; |
| |
# else |
| |
struct sockaddr_in listenAddress; |
| |
struct sockaddr_in clientAddress; |
| |
struct sockaddr_in serverAddress; |
| |
# endif |
| |
|
| |
int addressFamily; |
| |
SocketLength addressLength; |
| |
|
| |
memset(&listenAddress, 0, sizeof (listenAddress)); |
| |
|
| |
# ifdef PEGASUS_ENABLE_IPV6 |
| |
if (System::isIPv6StackActive()) |
| |
{ |
| |
// Use the IPv6 loopback address for the listen sockets |
| |
HostAddress::convertTextToBinary( |
| |
HostAddress::AT_IPV6, |
| |
"::1", |
| |
&reinterpret_cast<struct sockaddr_in6*>(&listenAddress)->sin6_addr); |
| |
listenAddress.ss_family = AF_INET6; |
| |
reinterpret_cast<struct sockaddr_in6*>(&listenAddress)->sin6_port = 0; |
| |
|
| |
addressFamily = AF_INET6; |
| |
addressLength = sizeof(struct sockaddr_in6); |
| } | } |
| |
else |
| |
# endif |
| |
{ |
| |
// Use the IPv4 loopback address for the listen sockets |
| |
HostAddress::convertTextToBinary( |
| |
HostAddress::AT_IPV4, |
| |
"127.0.0.1", |
| |
&reinterpret_cast<struct sockaddr_in*>( |
| |
&listenAddress)->sin_addr.s_addr); |
| |
reinterpret_cast<struct sockaddr_in*>(&listenAddress)->sin_family = |
| |
AF_INET; |
| |
reinterpret_cast<struct sockaddr_in*>(&listenAddress)->sin_port = 0; |
| | |
| |
addressFamily = AF_INET; |
| |
addressLength = sizeof(struct sockaddr_in); |
| } | } |
| | |
| void Monitor::initializeTickler(){ |
// Use the same address for the client socket as the listen socket |
| /* |
clientAddress = listenAddress; |
| NOTE: On any errors trying to |
|
| setup out tickle connection, |
|
| throw an exception/end the server |
|
| */ |
|
| | |
| /* setup the tickle server/listener */ |
// |
| // try until the tcpip is restarted |
// Set up a listen socket to allow the tickle client and server to connect |
| do |
// |
| { |
|
| | |
| // get a socket for the server side |
// Create the listen socket |
| if((_tickle_server_socket = Socket::createSocket(PF_INET, SOCK_STREAM, 0)) == PEGASUS_INVALID_SOCKET) |
if ((_listenSocket = Socket::createSocket(addressFamily, SOCK_STREAM, 0)) == |
| |
PEGASUS_INVALID_SOCKET) |
| { | { |
| //handle error |
MessageLoaderParms parms( |
| MessageLoaderParms parms("Common.Monitor.TICKLE_CREATE", |
"Common.Monitor.TICKLE_CREATE", |
| "Received error number $0 while creating the internal socket.", | "Received error number $0 while creating the internal socket.", |
| getSocketError()); | getSocketError()); |
| throw Exception(parms); | throw Exception(parms); |
| } | } |
| | |
| // initialize the address |
// Bind the listen socket to the loopback address |
| memset(&_tickle_server_addr, 0, sizeof(_tickle_server_addr)); |
if (::bind( |
| #ifdef PEGASUS_PLATFORM_OS400_ISERIES_IBM |
_listenSocket, |
| #pragma convert(37) |
reinterpret_cast<struct sockaddr*>(&listenAddress), |
| #endif |
addressLength) < 0) |
| _tickle_server_addr.sin_addr.s_addr = inet_addr("127.0.0.1"); |
{ |
| #ifdef PEGASUS_PLATFORM_OS400_ISERIES_IBM |
MessageLoaderParms parms( |
| #pragma convert(0) |
"Common.Monitor.TICKLE_BIND", |
| #endif |
|
| _tickle_server_addr.sin_family = PF_INET; |
|
| _tickle_server_addr.sin_port = 0; |
|
| |
|
| SocketLength _addr_size = sizeof(_tickle_server_addr); |
|
| |
|
| // bind server side to socket |
|
| if((::bind(_tickle_server_socket, |
|
| reinterpret_cast<struct sockaddr*>(&_tickle_server_addr), |
|
| sizeof(_tickle_server_addr))) < 0) |
|
| { |
|
| // handle error |
|
| #ifdef PEGASUS_OS_ZOS |
|
| MessageLoaderParms parms("Common.Monitor.TICKLE_BIND_LONG", |
|
| "Received error:$0 while binding the internal socket." |
|
| ,strerror(errno)); |
|
| #else |
|
| MessageLoaderParms parms("Common.Monitor.TICKLE_BIND", |
|
| "Received error number $0 while binding the internal socket.", | "Received error number $0 while binding the internal socket.", |
| getSocketError()); | getSocketError()); |
| #endif |
|
| throw Exception(parms); | throw Exception(parms); |
| } | } |
| | |
| // tell the kernel we are a server |
// Listen for a connection from the tickle client |
| if((::listen(_tickle_server_socket,3)) < 0) |
if ((::listen(_listenSocket, 3)) < 0) |
| { | { |
| // handle error |
MessageLoaderParms parms( |
| MessageLoaderParms parms("Common.Monitor.TICKLE_LISTEN", |
"Common.Monitor.TICKLE_LISTEN", |
| "Received error number $0 while listening to the internal socket.", | "Received error number $0 while listening to the internal socket.", |
| getSocketError()); | getSocketError()); |
| throw Exception(parms); | throw Exception(parms); |
| } | } |
| | |
| // make sure we have the correct socket for our server |
// Verify we have the correct listen socket |
| int sock = ::getsockname(_tickle_server_socket, |
SocketLength tmpAddressLength = addressLength; |
| reinterpret_cast<struct sockaddr*>(&_tickle_server_addr), |
int sock = ::getsockname( |
| &_addr_size); |
_listenSocket, |
| |
reinterpret_cast<struct sockaddr*>(&listenAddress), |
| |
&tmpAddressLength); |
| if(sock < 0) | if(sock < 0) |
| { | { |
| // handle error |
MessageLoaderParms parms( |
| MessageLoaderParms parms("Common.Monitor.TICKLE_SOCKNAME", |
"Common.Monitor.TICKLE_SOCKNAME", |
| "Received error number $0 while getting the internal socket name.", | "Received error number $0 while getting the internal socket name.", |
| getSocketError()); | getSocketError()); |
| throw Exception(parms); | throw Exception(parms); |
| } | } |
| | |
| /* set up the tickle client/connector */ |
// |
| |
// Set up the client side of the tickle connection. |
| // get a socket for our tickle client |
// |
| if((_tickle_client_socket = Socket::createSocket(PF_INET, SOCK_STREAM, 0)) |
|
| == PEGASUS_INVALID_SOCKET) |
|
| { |
|
| // handle error |
|
| MessageLoaderParms parms("Common.Monitor.TICKLE_CLIENT_CREATE", |
|
| "Received error number $0 while creating the internal client socket.", |
|
| getSocketError()); |
|
| throw Exception(parms); |
|
| } |
|
| |
|
| // setup the address of the client |
|
| memset(&_tickle_client_addr, 0, sizeof(_tickle_client_addr)); |
|
| #ifdef PEGASUS_PLATFORM_OS400_ISERIES_IBM |
|
| #pragma convert(37) |
|
| #endif |
|
| _tickle_client_addr.sin_addr.s_addr = inet_addr("127.0.0.1"); |
|
| #ifdef PEGASUS_PLATFORM_OS400_ISERIES_IBM |
|
| #pragma convert(0) |
|
| #endif |
|
| _tickle_client_addr.sin_family = PF_INET; |
|
| _tickle_client_addr.sin_port = 0; |
|
| | |
| // bind socket to client side |
// Create the client socket |
| if((::bind(_tickle_client_socket, |
if ((_clientSocket = Socket::createSocket(addressFamily, SOCK_STREAM, 0)) == |
| reinterpret_cast<struct sockaddr*>(&_tickle_client_addr), |
PEGASUS_INVALID_SOCKET) |
| sizeof(_tickle_client_addr))) < 0) |
{ |
| { |
MessageLoaderParms parms( |
| // handle error |
"Common.Monitor.TICKLE_CLIENT_CREATE", |
| MessageLoaderParms parms("Common.Monitor.TICKLE_CLIENT_BIND", |
"Received error number $0 while creating the internal client " |
| "Received error number $0 while binding the internal client socket.", |
"socket.", |
| getSocketError()); | getSocketError()); |
| throw Exception(parms); | throw Exception(parms); |
| } | } |
| | |
| // connect to server side |
// Bind the client socket to the loopback address |
| if((::connect(_tickle_client_socket, |
if (::bind( |
| reinterpret_cast<struct sockaddr*>(&_tickle_server_addr), |
_clientSocket, |
| sizeof(_tickle_server_addr))) < 0) |
reinterpret_cast<struct sockaddr*>(&clientAddress), |
| { |
addressLength) < 0) |
| // handle error |
{ |
| MessageLoaderParms parms("Common.Monitor.TICKLE_CLIENT_CONNECT", |
MessageLoaderParms parms( |
| "Received error number $0 while connecting the internal client socket.", |
"Common.Monitor.TICKLE_CLIENT_BIND", |
| |
"Received error number $0 while binding the internal client " |
| |
"socket.", |
| getSocketError()); | getSocketError()); |
| throw Exception(parms); | throw Exception(parms); |
| } | } |
| | |
| /* set up the slave connection */ |
// Connect the client socket to the listen socket address |
| memset(&_tickle_peer_addr, 0, sizeof(_tickle_peer_addr)); |
if (::connect( |
| SocketLength peer_size = sizeof(_tickle_peer_addr); |
_clientSocket, |
| Threads::sleep(1); |
reinterpret_cast<struct sockaddr*>(&listenAddress), |
| |
addressLength) < 0) |
| // this call may fail, we will try a max of 20 times to establish this peer connection |
{ |
| if((_tickle_peer_socket = ::accept(_tickle_server_socket, |
MessageLoaderParms parms( |
| reinterpret_cast<struct sockaddr*>(&_tickle_peer_addr), |
"Common.Monitor.TICKLE_CLIENT_CONNECT", |
| &peer_size)) < 0) |
"Received error number $0 while connecting the internal client " |
| { |
"socket.", |
| #if !defined(PEGASUS_OS_TYPE_WINDOWS) |
|
| |
|
| if(_tickle_peer_socket == PEGASUS_SOCKET_ERROR |
|
| && getSocketError() == PEGASUS_NETWORK_TRYAGAIN) |
|
| { |
|
| int retries = 0; |
|
| do |
|
| { |
|
| Threads::sleep(1); |
|
| _tickle_peer_socket = ::accept(_tickle_server_socket, |
|
| reinterpret_cast<struct sockaddr*>(&_tickle_peer_addr), |
|
| &peer_size); |
|
| retries++; |
|
| } while(_tickle_peer_socket == PEGASUS_SOCKET_ERROR |
|
| && getSocketError() == PEGASUS_NETWORK_TRYAGAIN |
|
| && retries < 20); |
|
| } |
|
| // TCP/IP is down, destroy sockets and retry again. |
|
| if(_tickle_peer_socket == PEGASUS_SOCKET_ERROR && |
|
| getSocketError() == PEGASUS_NETWORK_TCPIP_STOPPED ) |
|
| { |
|
| // destroy everything |
|
| uninitializeTickler(); |
|
| // retry again. |
|
| continue; |
|
| } |
|
| } |
|
| #endif |
|
| } |
|
| if(_tickle_peer_socket == PEGASUS_SOCKET_ERROR) |
|
| { |
|
| // handle error |
|
| MessageLoaderParms parms("Common.Monitor.TICKLE_ACCEPT", |
|
| "Received error number $0 while accepting the internal socket connection.", |
|
| getSocketError()); | getSocketError()); |
| throw Exception(parms); | throw Exception(parms); |
| } else |
|
| { |
|
| // socket is ok |
|
| break; |
|
| } |
|
| } while(1); // try until TCP/IP is restarted |
|
| |
|
| Socket::disableBlocking(_tickle_peer_socket); |
|
| Socket::disableBlocking(_tickle_client_socket); |
|
| |
|
| // add the tickler to the list of entries to be monitored and set to IDLE because Monitor only |
|
| // checks entries with IDLE state for events |
|
| _MonitorEntry entry(_tickle_peer_socket, 1, INTERNAL); |
|
| entry._status = _MonitorEntry::IDLE; |
|
| |
|
| // is the tickler initalized as first socket on startup ? |
|
| if (_entries.size()==0) |
|
| { |
|
| // if yes, append a new entry |
|
| _entries.append(entry); |
|
| } |
|
| else |
|
| { |
|
| // if not, overwrite the tickler entry with new socket |
|
| _entries[0]=entry; |
|
| } |
|
| |
|
| } | } |
| | |
| void Monitor::tickle(void) |
// |
| { |
// Set up the server side of the tickle connection. |
| static char _buffer[] = |
// |
| { |
|
| '0','0' |
|
| }; |
|
| |
|
| AutoMutex autoMutex(_tickle_mutex); |
|
| Socket::write(_tickle_client_socket,&_buffer, 2); |
|
| } |
|
| |
|
| void Monitor::setState( Uint32 index, _MonitorEntry::entry_status status ) |
|
| { |
|
| // Set the state to requested state |
|
| _entries[index]._status = status; |
|
| } |
|
| |
|
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
|
| void Monitor::setPipeState( Uint32 index, _MonitorEntry::entry_status status ) |
|
| { |
|
| // Set the state to requested state |
|
| _entries_pipe[index]._status = status; |
|
| } |
|
| |
|
| int Monitor::handlePipe() |
|
| { |
|
| |
|
| AutoMutex autoEntryMutex(_entry_mut); |
|
| |
|
| ArrayIterator<_MonitorEntry> entries(_entries_pipe); |
|
| |
|
| // Check the stopConnections flag. If set, clear the Acceptor monitor entries |
|
| if (_stopConnections.get() == 1) |
|
| { |
|
| for ( int indx = 0; indx < (int)entries.size(); indx++) |
|
| { |
|
| if (entries[indx]._type == Monitor::ACCEPTOR) |
|
| { |
|
| if ( entries[indx]._status.get() != _MonitorEntry::EMPTY) |
|
| { |
|
| if ( entries[indx]._status.get() == _MonitorEntry::IDLE || |
|
| entries[indx]._status.get() == _MonitorEntry::DYING ) |
|
| { |
|
| // remove the entry |
|
| entries[indx]._status = _MonitorEntry::EMPTY; |
|
| } |
|
| else |
|
| { |
|
| // set status to DYING |
|
| entries[indx]._status = _MonitorEntry::DYING; |
|
| } |
|
| } |
|
| } |
|
| } |
|
| _stopConnections = 0; |
|
| _stopConnectionsSem.signal(); |
|
| } |
|
| |
|
| for( int indx = 0; indx < (int)entries.size(); indx++) |
|
| { |
|
| const _MonitorEntry &entry = entries[indx]; |
|
| if ((entry._status.get() == _MonitorEntry::DYING) && |
|
| (entry._type == Monitor::CONNECTION)) |
|
| { |
|
| MessageQueue *q = MessageQueue::lookup(entry.queueId); |
|
| PEGASUS_ASSERT(q != 0); |
|
| HTTPConnection &h = *static_cast<HTTPConnection *>(q); |
|
| |
|
| if (h._connectionClosePending == false) |
|
| continue; |
|
| |
|
| // NOTE: do not attempt to delete while there are pending responses |
|
| // coming thru. The last response to come thru after a |
|
| // _connectionClosePending will reset _responsePending to false |
|
| // and then cause the monitor to rerun this code and clean up. |
|
| // (see HTTPConnection.cpp) |
|
| |
|
| if (h._responsePending == true) |
|
| { |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, "Monitor::run - " |
|
| "Ignoring connection delete request because " |
|
| "responses are still pending. " |
|
| "connection=0x%p, NamedPipe=%d\n", |
|
| (void *)&h, h.getNamedPipe().getPipe()); |
|
| continue; |
|
| } |
|
| h._connectionClosePending = false; |
|
| MessageQueue &o = h.get_owner(); |
|
| Message* message = 0; |
|
| |
|
| message= new CloseConnectionMessage(entry.namedPipe); |
|
| |
|
| message->dest = o.getQueueId(); |
|
| | |
| // HTTPAcceptor is responsible for closing the connection. |
tmpAddressLength = addressLength; |
| // The lock is released to allow HTTPAcceptor to call |
|
| // unsolicitSocketMessages to free the entry. |
|
| // Once HTTPAcceptor completes processing of the close |
|
| // connection, the lock is re-requested and processing of |
|
| // the for loop continues. This is safe with the current |
|
| // implementation of the entries object. Note that the |
|
| // loop condition accesses the entries.size() on each |
|
| // iteration, so that a change in size while the mutex is |
|
| // unlocked will not result in an ArrayIndexOutOfBounds |
|
| // exception. |
|
| | |
| _entry_mut.unlock(); |
// Accept the client socket connection. |
| o.enqueue(message); |
_serverSocket = ::accept( |
| _entry_mut.lock(); |
_listenSocket, |
| // After enqueue a message and the autoEntryMutex has been released and locked again, |
reinterpret_cast<struct sockaddr*>(&serverAddress), |
| // the array of _entries can be changed. The ArrayIterator has be reset with the original _entries. |
&tmpAddressLength); |
| entries.reset(_entries_pipe); |
|
| } |
if (_serverSocket == PEGASUS_SOCKET_ERROR) |
| |
{ |
| |
MessageLoaderParms parms( |
| |
"Common.Monitor.TICKLE_ACCEPT", |
| |
"Received error number $0 while accepting the internal socket " |
| |
"connection.", |
| |
getSocketError()); |
| |
throw Exception(parms); |
| } | } |
| | |
| Uint32 _idleEntries = 0; |
// |
| |
// Close the listen socket and make the other sockets non-blocking |
| /* |
// |
| We will keep track of the maximum socket number and pass this value |
|
| to the kernel as a parameter to SELECT. This loop seems like a good |
|
| place to calculate the max file descriptor (maximum socket number) |
|
| because we have to traverse the entire array. |
|
| */ |
|
| SocketHandle maxSocketCurrentPass = 0; |
|
| int indx = 0; |
|
| |
|
| |
|
| Array <Uint32> indexPipeCountAssociator; |
|
| int pipeEntryCount=0; |
|
| int MaxPipes = PIPE_INCREMENT; |
|
| // List of Pipe Handlers |
|
| HANDLE * hPipeList = new HANDLE[PIPE_INCREMENT]; |
|
| |
|
| |
|
| for( indx = 0; indx < (int)entries.size() ; indx++) |
|
| { |
|
| if (!entries[indx].namedPipeConnection) |
|
| continue; |
|
| | |
| entries[indx].pipeSet = false; |
Socket::close(_listenSocket); |
| if (pipeEntryCount >= MaxPipes) |
Socket::disableBlocking(_serverSocket); |
| { |
Socket::disableBlocking(_clientSocket); |
| MaxPipes += PIPE_INCREMENT; |
|
| HANDLE* temp_pList = new HANDLE[MaxPipes]; |
|
| for (Uint32 i =0;i<pipeEntryCount;i++) |
|
| { |
|
| temp_pList[i] = hPipeList[i]; |
|
| } | } |
| delete [] hPipeList; |
|
| hPipeList = temp_pList; |
|
| } |
|
| hPipeList[pipeEntryCount] = entries[indx].namedPipe.getPipe(); |
|
| indexPipeCountAssociator.append(indx); |
|
| pipeEntryCount++; |
|
| | |
| } |
#endif |
| /* |
|
| Add 1 then assign maxSocket accordingly. We add 1 to account for |
|
| descriptors starting at 0. |
|
| */ |
|
| maxSocketCurrentPass++; |
|
| |
|
| |
|
| |
|
| int pEvents = -1; |
|
| int pCount = -1; |
|
| BOOL bPeekPipe = 0; |
|
| DWORD dwBytesAvail=0; |
|
| // The pipe is sniffed and check if there are any data. If available, the |
|
| // message is picked from the Queue and appropriate methods are invoked. |
|
| |
|
| |
|
| // pipeProcessCount records the number of requests that are processed. |
|
| // At the end of loop this is verified against the count of request |
|
| // on local connection . If there are any pipes which needs to be |
|
| // processed we would apply delay and then proceed to iterate. |
|
| |
|
| Uint32 pipeProcessCount =0; |
|
| |
|
| _entry_mut.unlock(); |
|
| |
|
| |
|
| // pipeIndex is used to index into indexPipeCountAssociator to fetch |
|
| // index of the _MonitorEntry of Monitor |
|
| for (int pipeIndex = 0; pipeIndex < pipeEntryCount; pipeIndex++) |
|
| { |
|
| dwBytesAvail = 0; |
|
| |
|
| bPeekPipe = ::PeekNamedPipe(hPipeList[pipeIndex], |
|
| NULL, |
|
| NULL, |
|
| NULL, |
|
| &dwBytesAvail, |
|
| NULL |
|
| ); |
|
| |
|
| // If peek on NamedPipe was successfull and data is available |
|
| if (bPeekPipe && dwBytesAvail) |
|
| { |
|
| |
|
| // Tracer::trace(TRC_HTTP,Tracer::LEVEL4," PIPE_PEEKING FOUND = %u BYTES", dwBytesAvail); |
|
| |
|
| pEvents = 1; |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, "EVENT TRIGGERED in Pipe = %u ",entries[indexPipeCountAssociator[pipeIndex]].namedPipe.getPipe()); |
|
| entries[indexPipeCountAssociator[pipeIndex]].pipeSet = true; |
|
| int pIndx = indexPipeCountAssociator[pipeIndex]; |
|
| | |
| if ((entries[pIndx]._status.get() == _MonitorEntry::IDLE) && |
void Tickler::_uninitialize() |
| entries[pIndx].namedPipe.isConnected() && |
|
| (pEvents)) |
|
| { | { |
| |
PEG_TRACE_CSTRING(TRC_HTTP, Tracer::LEVEL4, "uninitializing interface"); |
| MessageQueue *q = 0; |
|
| | |
| try | try |
| { | { |
| |
Socket::close(_serverSocket); |
| q = MessageQueue::lookup (entries[pIndx].queueId); |
Socket::close(_clientSocket); |
| } |
Socket::close(_listenSocket); |
| catch (Exception e) |
|
| { |
|
| e.getMessage(); |
|
| } | } |
| catch(...) | catch(...) |
| { | { |
| |
PEG_TRACE_CSTRING(TRC_HTTP, Tracer::LEVEL4, |
| |
"Failed to close tickle sockets"); |
| } | } |
| |
Socket::uninitializeInterface(); |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::run indx = %d, queueId = %d,\ |
|
| q = %p",pIndx, entries[pIndx].queueId, q); |
|
| try |
|
| { |
|
| if (entries[pIndx]._type == Monitor::CONNECTION) |
|
| { |
|
| |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "entries[indx].type for indx = \ |
|
| %d is Monitor::CONNECTION", |
|
| pIndx); |
|
| static_cast<HTTPConnection *>(q)->_entry_index = pIndx; |
|
| HTTPConnection *dst = reinterpret_cast \ |
|
| <HTTPConnection *>(q); |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: entering run() \ |
|
| for indx = %d, queueId = %d, \ |
|
| q = %p",\ |
|
| dst->_entry_index, |
|
| dst->_monitor->_entries\ |
|
| [dst->_entry_index].queueId, dst); |
|
| |
|
| try |
|
| { |
|
| |
|
| dst->run(1); |
|
| |
|
| // Record that the requested data is read/Written |
|
| pipeProcessCount++; |
|
| |
|
| } |
|
| catch (...) |
|
| { |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: \ |
|
| exception received"); |
|
| } | } |
| | |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: exited \ |
|
| \run() index %d", |
|
| dst->_entry_index); |
|
| | |
| |
//////////////////////////////////////////////////////////////////////////////// |
| |
// |
| |
// Monitor |
| |
// |
| |
//////////////////////////////////////////////////////////////////////////////// |
| | |
| } |
#define MAX_NUMBER_OF_MONITOR_ENTRIES 32 |
| else |
Monitor::Monitor() |
| |
: _stopConnections(0), |
| |
_stopConnectionsSem(0), |
| |
_solicitSocketCount(0) |
| { | { |
| /* The condition |
int numberOfMonitorEntriesToAllocate = MAX_NUMBER_OF_MONITOR_ENTRIES; |
| entries[indx]._type == Monitor::INTERNAL can be |
_entries.reserveCapacity(numberOfMonitorEntriesToAllocate); |
| ignored for pipes as the tickler is of |
|
| Monitor::INTERNAL type. The tickler is |
|
| a socket. |
|
| */ |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Non-connection entry, indx = %d,\ |
|
| has been received.", pIndx); |
|
| int events = 0; |
|
| Message *msg = 0; |
|
| |
|
| pEvents |= NamedPipeMessage::READ; |
|
| msg = new NamedPipeMessage(entries[pIndx].namedPipe, pEvents); |
|
| entries[pIndx]._status = _MonitorEntry::BUSY; |
|
| q->enqueue(msg); |
|
| _entry_mut.lock(); |
|
| entries.reset(_entries_pipe); |
|
| entries[pIndx]._status = _MonitorEntry::IDLE; |
|
| delete [] hPipeList; |
|
| return 1; |
|
| } |
|
| | |
| |
// Create a MonitorEntry for the Tickler and set its state to IDLE so the |
| |
// Monitor will watch for its events. |
| |
_entries.append(MonitorEntry( |
| |
_tickler.getServerSocket(), |
| |
1, |
| |
MonitorEntry::STATUS_IDLE, |
| |
MonitorEntry::TYPE_INTERNAL)); |
| | |
| } |
// Start the count at 1 because _entries[0] is the Tickler |
| catch(...) |
for (int i = 1; i < numberOfMonitorEntriesToAllocate; i++) |
| { | { |
| |
_entries.append(MonitorEntry()); |
| } | } |
| } | } |
| | |
| |
Monitor::~Monitor() |
| |
{ |
| |
PEG_TRACE_CSTRING(TRC_HTTP, Tracer::LEVEL4, |
| |
"returning from monitor destructor"); |
| } | } |
| | |
| _entry_mut.lock(); |
void Monitor::tickle() |
| } |
|
| delete [] hPipeList; |
|
| |
|
| //If no request received on pipe rest for 4 seconds and give chance to Socket Thread |
|
| if (!pipeProcessCount) |
|
| { | { |
| Sleep(4000); |
Socket::write(_tickler.getClientSocket(), "\0", 1); |
| } | } |
| return 1; |
|
| | |
| |
void Monitor::setState( |
| |
Uint32 index, |
| |
MonitorEntry::Status status) |
| |
{ |
| |
AutoMutex autoEntryMutex(_entriesMutex); |
| |
// Set the state to requested state |
| |
_entries[index].status = status; |
| } | } |
| #endif |
|
| | |
| void Monitor::run(Uint32 milliseconds) | void Monitor::run(Uint32 milliseconds) |
| { | { |
| |
|
| int i = 0; |
|
| |
|
| struct timeval tv = {milliseconds/1000, milliseconds%1000*1000}; | struct timeval tv = {milliseconds/1000, milliseconds%1000*1000}; |
| | |
| fd_set fdread; | fd_set fdread; |
| FD_ZERO(&fdread); | FD_ZERO(&fdread); |
| | |
| AutoMutex autoEntryMutex(_entry_mut); |
AutoMutex autoEntryMutex(_entriesMutex); |
| | |
| ArrayIterator<_MonitorEntry> entries(_entries); |
ArrayIterator<MonitorEntry> entries(_entries); |
| | |
| // Check the stopConnections flag. If set, clear the Acceptor monitor entries |
// Check the stopConnections flag. If set, clear the Acceptor monitor |
| |
// entries |
| if (_stopConnections.get() == 1) | if (_stopConnections.get() == 1) |
| { | { |
| for ( int indx = 0; indx < (int)entries.size(); indx++) |
for (Uint32 indx = 0; indx < entries.size(); indx++) |
| { | { |
| if (entries[indx]._type == Monitor::ACCEPTOR) |
if (entries[indx].type == MonitorEntry::TYPE_ACCEPTOR) |
| { | { |
| if ( entries[indx]._status.get() != _MonitorEntry::EMPTY) |
if (entries[indx].status != MonitorEntry::STATUS_EMPTY) |
| { | { |
| if ( entries[indx]._status.get() == _MonitorEntry::IDLE || |
if (entries[indx].status == MonitorEntry::STATUS_IDLE || |
| entries[indx]._status.get() == _MonitorEntry::DYING ) |
entries[indx].status == MonitorEntry::STATUS_DYING) |
| { | { |
| // remove the entry | // remove the entry |
| entries[indx]._status = _MonitorEntry::EMPTY; |
entries[indx].status = MonitorEntry::STATUS_EMPTY; |
| } | } |
| else | else |
| { | { |
| // set status to DYING | // set status to DYING |
| entries[indx]._status = _MonitorEntry::DYING; |
entries[indx].status = MonitorEntry::STATUS_DYING; |
| } | } |
| } | } |
| } | } |
|
|
|
| _stopConnectionsSem.signal(); | _stopConnectionsSem.signal(); |
| } | } |
| | |
| for( int indx = 0; indx < (int)entries.size(); indx++) |
for (Uint32 indx = 0; indx < entries.size(); indx++) |
| { | { |
| const _MonitorEntry &entry = entries[indx]; |
const MonitorEntry& entry = entries[indx]; |
| if ((entry._status.get() == _MonitorEntry::DYING) && |
|
| (entry._type == Monitor::CONNECTION)) |
if ((entry.status == MonitorEntry::STATUS_DYING) && |
| |
(entry.type == MonitorEntry::TYPE_CONNECTION)) |
| { | { |
| MessageQueue *q = MessageQueue::lookup(entry.queueId); | MessageQueue *q = MessageQueue::lookup(entry.queueId); |
| PEGASUS_ASSERT(q != 0); | PEGASUS_ASSERT(q != 0); |
|
|
|
| | |
| if (h._responsePending == true) | if (h._responsePending == true) |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, "Monitor::run - " |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| "Ignoring connection delete request because " |
"Monitor::run - Ignoring connection delete request " |
| "responses are still pending. " |
"because responses are still pending. " |
| "connection=0x%p, socket=%d\n", | "connection=0x%p, socket=%d\n", |
| (void *)&h, h.getSocket()); |
(void *)&h, h.getSocket())); |
| continue; | continue; |
| } | } |
| h._connectionClosePending = false; | h._connectionClosePending = false; |
|
|
|
| // unlocked will not result in an ArrayIndexOutOfBounds | // unlocked will not result in an ArrayIndexOutOfBounds |
| // exception. | // exception. |
| | |
| _entry_mut.unlock(); |
_entriesMutex.unlock(); |
| o.enqueue(message); | o.enqueue(message); |
| _entry_mut.lock(); |
_entriesMutex.lock(); |
| // After enqueue a message and the autoEntryMutex has been released and locked again, |
|
| // the array of _entries can be changed. The ArrayIterator has be reset with the original _entries. |
// After enqueue a message and the autoEntryMutex has been |
| |
// released and locked again, the array of _entries can be |
| |
// changed. The ArrayIterator has be reset with the original |
| |
// _entries. |
| entries.reset(_entries); | entries.reset(_entries); |
| } | } |
| } | } |
|
|
|
| because we have to traverse the entire array. | because we have to traverse the entire array. |
| */ | */ |
| SocketHandle maxSocketCurrentPass = 0; | SocketHandle maxSocketCurrentPass = 0; |
| for( int indx = 0; indx < (int)entries.size(); indx++) |
for (Uint32 indx = 0; indx < entries.size(); indx++) |
| { | { |
| if(maxSocketCurrentPass < entries[indx].socket) | if(maxSocketCurrentPass < entries[indx].socket) |
| maxSocketCurrentPass = entries[indx].socket; | maxSocketCurrentPass = entries[indx].socket; |
| | |
| if(entries[indx]._status.get() == _MonitorEntry::IDLE) |
if (entries[indx].status == MonitorEntry::STATUS_IDLE) |
| { | { |
| _idleEntries++; | _idleEntries++; |
| FD_SET(entries[indx].socket, &fdread); | FD_SET(entries[indx].socket, &fdread); |
|
|
|
| */ | */ |
| maxSocketCurrentPass++; | maxSocketCurrentPass++; |
| | |
| _entry_mut.unlock(); |
_entriesMutex.unlock(); |
| | |
| // | // |
| // The first argument to select() is ignored on Windows and it is not | // The first argument to select() is ignored on Windows and it is not |
|
|
|
| #else | #else |
| int events = select(maxSocketCurrentPass, &fdread, NULL, NULL, &tv); | int events = select(maxSocketCurrentPass, &fdread, NULL, NULL, &tv); |
| #endif | #endif |
| _entry_mut.lock(); |
int selectErrno = getSocketError(); |
| // After enqueue a message and the autoEntryMutex has been released and locked again, |
|
| // the array of _entries can be changed. The ArrayIterator has be reset with the original _entries |
_entriesMutex.lock(); |
| |
|
| |
struct timeval timeNow; |
| |
Time::gettimeofday(&timeNow); |
| |
|
| |
// After enqueue a message and the autoEntryMutex has been released and |
| |
// locked again, the array of _entries can be changed. The ArrayIterator |
| |
// has be reset with the original _entries |
| entries.reset(_entries); | entries.reset(_entries); |
| | |
| if (events == PEGASUS_SOCKET_ERROR) | if (events == PEGASUS_SOCKET_ERROR) |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| "Monitor::run - errorno = %d has occurred on select.", errno); |
"Monitor::run - select() returned error %d.", selectErrno)); |
| // The EBADF error indicates that one or more or the file | // The EBADF error indicates that one or more or the file |
| // descriptions was not valid. This could indicate that | // descriptions was not valid. This could indicate that |
| // the entries structure has been corrupted or that | // the entries structure has been corrupted or that |
| // we have a synchronization error. | // we have a synchronization error. |
| | |
| PEGASUS_ASSERT(errno != EBADF); |
PEGASUS_ASSERT(selectErrno != EBADF); |
| } | } |
| else if (events) | else if (events) |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| "Monitor::run select event received events = %d, monitoring %d idle entries", |
"Monitor::run select event received events = %d, monitoring %d " |
| events, _idleEntries); |
"idle entries", |
| for( int indx = 0; indx < (int)entries.size(); indx++) |
events, _idleEntries)); |
| { |
for (Uint32 indx = 0; indx < entries.size(); indx++) |
| // The Monitor should only look at entries in the table that are IDLE (i.e., |
{ |
| // owned by the Monitor). |
// The Monitor should only look at entries in the table that are |
| if((entries[indx]._status.get() == _MonitorEntry::IDLE) && |
// IDLE (i.e., owned by the Monitor). |
| |
if ((entries[indx].status == MonitorEntry::STATUS_IDLE) && |
| (FD_ISSET(entries[indx].socket, &fdread))) | (FD_ISSET(entries[indx].socket, &fdread))) |
| { | { |
| MessageQueue *q = MessageQueue::lookup(entries[indx].queueId); | MessageQueue *q = MessageQueue::lookup(entries[indx].queueId); |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::run indx = %d, queueId = %d, q = %p", |
|
| indx, entries[indx].queueId, q); |
|
| PEGASUS_ASSERT(q !=0); | PEGASUS_ASSERT(q !=0); |
| |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| |
"Monitor::run indx = %d, queueId = %d, q = %p", |
| |
indx, entries[indx].queueId, q)); |
| | |
| try | try |
| { | { |
| if(entries[indx]._type == Monitor::CONNECTION) |
if (entries[indx].type == MonitorEntry::TYPE_CONNECTION) |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| "entries[indx].type for indx = %d is Monitor::CONNECTION", indx); |
"entries[%d].type is TYPE_CONNECTION", |
| static_cast<HTTPConnection *>(q)->_entry_index = indx; |
indx)); |
| |
|
| // Do not update the entry just yet. The entry gets updated once |
HTTPConnection *dst = |
| // the request has been read. |
reinterpret_cast<HTTPConnection *>(q); |
| //entries[indx]._status = _MonitorEntry::BUSY; |
dst->_entry_index = indx; |
| |
|
| // If allocate_and_awaken failure, retry on next iteration |
// Update idle start time because we have received some |
| /* Removed for PEP 183. |
// data. Any data is good data at this point, and we'll |
| if (!MessageQueueService::get_thread_pool()->allocate_and_awaken( |
// keep the connection alive, even if we've exceeded |
| (void *)q, _dispatch)) |
// the idleConnectionTimeout, which will be checked |
| { |
// when we call closeConnectionOnTimeout() next. |
| Tracer::trace(TRC_DISCARDED_DATA, Tracer::LEVEL2, |
Time::gettimeofday(&dst->_idleStartTime); |
| "Monitor::run: Insufficient resources to process request."); |
|
| entries[indx]._status = _MonitorEntry::IDLE; |
// Check for accept pending (ie. SSL handshake pending) |
| return true; |
// or idle connection timeouts for sockets from which |
| } |
// we received data (avoiding extra queue lookup below). |
| */ |
if (!dst->closeConnectionOnTimeout(&timeNow)) |
| // Added for PEP 183 |
{ |
| HTTPConnection *dst = reinterpret_cast<HTTPConnection *>(q); |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
"Entering HTTPConnection::run() for " |
| "Monitor::_dispatch: entering run() for indx = %d, queueId = %d, q = %p", |
"indx = %d, queueId = %d, q = %p", |
| dst->_entry_index, dst->_monitor->_entries[dst->_entry_index].queueId, dst); |
indx, entries[indx].queueId, q)); |
| |
|
| try | try |
| { | { |
| dst->run(1); | dst->run(1); |
| } | } |
| catch (...) | catch (...) |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
PEG_TRACE_CSTRING(TRC_HTTP, Tracer::LEVEL2, |
| "Monitor::_dispatch: exception received"); |
"Caught exception from " |
| |
"HTTPConnection::run()"); |
| |
} |
| |
PEG_TRACE_CSTRING(TRC_HTTP, Tracer::LEVEL4, |
| |
"Exited HTTPConnection::run()"); |
| } | } |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: exited run() for index %d", dst->_entry_index); |
|
| | |
| // It is possible the entry status may not be set to busy. |
|
| // The following will fail in that case. |
|
| // PEGASUS_ASSERT(dst->_monitor->_entries[dst->_entry_index]._status.get() == _MonitorEntry::BUSY); |
|
| // Once the HTTPConnection thread has set the status value to either |
|
| // Monitor::DYING or Monitor::IDLE, it has returned control of the connection |
|
| // to the Monitor. It is no longer permissible to access the connection |
|
| // or the entry in the _entries table. |
|
| |
|
| // The following is not relevant as the worker thread or the |
|
| // reader thread will update the status of the entry. |
|
| //if (dst->_connectionClosePending) |
|
| //{ |
|
| // dst->_monitor->_entries[dst->_entry_index]._status = _MonitorEntry::DYING; |
|
| //} |
|
| //else |
|
| //{ |
|
| // dst->_monitor->_entries[dst->_entry_index]._status = _MonitorEntry::IDLE; |
|
| //} |
|
| // end Added for PEP 183 |
|
| } |
|
| else if( entries[indx]._type == Monitor::INTERNAL){ |
|
| // set ourself to BUSY, |
|
| // read the data |
|
| // and set ourself back to IDLE |
|
| |
|
| entries[indx]._status = _MonitorEntry::BUSY; |
|
| static char buffer[2]; |
|
| Sint32 amt = Socket::read(entries[indx].socket,&buffer, 2); |
|
| |
|
| if(amt == PEGASUS_SOCKET_ERROR && |
|
| getSocketError() == PEGASUS_NETWORK_TCPIP_STOPPED ) |
|
| { |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::run: Tickler socket got an IO error. " |
|
| "Going to re-create Socket and wait for TCP/IP restart."); |
|
| uninitializeTickler(); |
|
| initializeTickler(); |
|
| | |
| } else |
|
| { |
|
| entries[indx]._status = _MonitorEntry::IDLE; |
|
| } | } |
| |
else if (entries[indx].type == MonitorEntry::TYPE_INTERNAL) |
| |
{ |
| |
char buffer; |
| |
Sint32 ignored = |
| |
Socket::read(entries[indx].socket, &buffer, 1); |
| } | } |
| else | else |
| { | { |
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
PEG_TRACE((TRC_HTTP, Tracer::LEVEL4, |
| "Non-connection entry, indx = %d, has been received.", indx); |
"Non-connection entry, indx = %d, has been " |
| |
"received.", |
| |
indx)); |
| int events = 0; | int events = 0; |
| events |= SocketMessage::READ; | events |= SocketMessage::READ; |
| Message *msg = new SocketMessage(entries[indx].socket, events); |
Message* msg = new SocketMessage( |
| entries[indx]._status = _MonitorEntry::BUSY; |
entries[indx].socket, events); |
| _entry_mut.unlock(); |
entries[indx].status = MonitorEntry::STATUS_BUSY; |
| |
_entriesMutex.unlock(); |
| q->enqueue(msg); | q->enqueue(msg); |
| _entry_mut.lock(); |
_entriesMutex.lock(); |
| // After enqueue a message and the autoEntryMutex has been released and locked again, |
|
| // the array of entries can be changed. The ArrayIterator has be reset with the original _entries |
// After enqueue a message and the autoEntryMutex has |
| |
// been released and locked again, the array of |
| |
// entries can be changed. The ArrayIterator has to be |
| |
// reset with the latest _entries. |
| entries.reset(_entries); | entries.reset(_entries); |
| entries[indx]._status = _MonitorEntry::IDLE; |
entries[indx].status = MonitorEntry::STATUS_IDLE; |
| } | } |
| } | } |
| catch(...) | catch(...) |
| { | { |
| } | } |
| } | } |
| |
// else check for accept pending (ie. SSL handshake pending) or |
| |
// idle connection timeouts for sockets from which we did not |
| |
// receive data. |
| |
else if ((entries[indx].status == MonitorEntry::STATUS_IDLE) && |
| |
entries[indx].type == MonitorEntry::TYPE_CONNECTION) |
| |
|
| |
{ |
| |
MessageQueue* q = MessageQueue::lookup(entries[indx].queueId); |
| |
HTTPConnection *dst = reinterpret_cast<HTTPConnection *>(q); |
| |
dst->_entry_index = indx; |
| |
dst->closeConnectionOnTimeout(&timeNow); |
| |
} |
| |
} |
| |
} |
| |
// else if "events" is zero (ie. select timed out) then we still need |
| |
// to check if there are any pending SSL handshakes that have timed out. |
| |
else |
| |
{ |
| |
for (Uint32 indx = 0; indx < entries.size(); indx++) |
| |
{ |
| |
if ((entries[indx].status == MonitorEntry::STATUS_IDLE) && |
| |
entries[indx].type == MonitorEntry::TYPE_CONNECTION) |
| |
{ |
| |
MessageQueue* q = MessageQueue::lookup(entries[indx].queueId); |
| |
HTTPConnection *dst = reinterpret_cast<HTTPConnection *>(q); |
| |
dst->_entry_index = indx; |
| |
dst->closeConnectionOnTimeout(&timeNow); |
| |
} |
| } | } |
| } | } |
| } | } |
|
|
|
| } | } |
| | |
| | |
| |
|
| int Monitor::solicitSocketMessages( | int Monitor::solicitSocketMessages( |
| SocketHandle socket, | SocketHandle socket, |
| Uint32 events, | Uint32 events, |
| Uint32 queueId, | Uint32 queueId, |
| int type) |
Uint32 type) |
| { | { |
| PEG_METHOD_ENTER(TRC_HTTP, "Monitor::solicitSocketMessages"); | PEG_METHOD_ENTER(TRC_HTTP, "Monitor::solicitSocketMessages"); |
| AutoMutex autoMut(_entry_mut); |
AutoMutex autoMut(_entriesMutex); |
| |
|
| // Check to see if we need to dynamically grow the _entries array | // Check to see if we need to dynamically grow the _entries array |
| // We always want the _entries array to 2 bigger than the |
// We always want the _entries array to be 2 bigger than the |
| // current connections requested | // current connections requested |
| _solicitSocketCount++; // bump the count | _solicitSocketCount++; // bump the count |
| int size = (int)_entries.size(); |
|
| if((int)_solicitSocketCount >= (size-1)){ |
for (Uint32 i = _entries.size(); i < _solicitSocketCount + 1; i++) |
| for(int i = 0; i < ((int)_solicitSocketCount - (size-1)); i++){ |
{ |
| _MonitorEntry entry(0, 0, 0); |
_entries.append(MonitorEntry()); |
| _entries.append(entry); |
|
| } |
|
| } | } |
| | |
| int index; |
for (Uint32 index = 1; index < _entries.size(); index++) |
| for(index = 1; index < (int)_entries.size(); index++) |
|
| { | { |
| try | try |
| { | { |
| if(_entries[index]._status.get() == _MonitorEntry::EMPTY) |
if (_entries[index].status == MonitorEntry::STATUS_EMPTY) |
| { | { |
| _entries[index].socket = socket; | _entries[index].socket = socket; |
| _entries[index].queueId = queueId; | _entries[index].queueId = queueId; |
| _entries[index]._type = type; |
_entries[index].type = type; |
| _entries[index]._status = _MonitorEntry::IDLE; |
_entries[index].status = MonitorEntry::STATUS_IDLE; |
| | |
| return index; |
return (int)index; |
| } | } |
| } | } |
| catch(...) | catch(...) |
| { | { |
| } | } |
| } | } |
| _solicitSocketCount--; // decrease the count, if we are here we didnt do anything meaningful |
// decrease the count, if we are here we didn't do anything meaningful |
| |
_solicitSocketCount--; |
| PEG_METHOD_EXIT(); | PEG_METHOD_EXIT(); |
| return -1; | return -1; |
| |
|
| } | } |
| | |
| void Monitor::unsolicitSocketMessages(SocketHandle socket) | void Monitor::unsolicitSocketMessages(SocketHandle socket) |
| { | { |
| |
|
| PEG_METHOD_ENTER(TRC_HTTP, "Monitor::unsolicitSocketMessages"); | PEG_METHOD_ENTER(TRC_HTTP, "Monitor::unsolicitSocketMessages"); |
| AutoMutex autoMut(_entry_mut); |
AutoMutex autoMut(_entriesMutex); |
| | |
| /* | /* |
| Start at index = 1 because _entries[0] is the tickle entry which never needs |
Start at index = 1 because _entries[0] is the tickle entry which |
| to be EMPTY; |
never needs to be reset to EMPTY; |
| */ | */ |
| unsigned int index; |
for (Uint32 index = 1; index < _entries.size(); index++) |
| for(index = 1; index < _entries.size(); index++) |
|
| { | { |
| if(_entries[index].socket == socket) | if(_entries[index].socket == socket) |
| { | { |
| _entries[index]._status = _MonitorEntry::EMPTY; |
_entries[index].reset(); |
| _entries[index].socket = PEGASUS_INVALID_SOCKET; |
|
| _solicitSocketCount--; | _solicitSocketCount--; |
| break; | break; |
| } | } |
|
|
|
| | |
| /* | /* |
| Dynamic Contraction: | Dynamic Contraction: |
| To remove excess entries we will start from the end of the _entries array |
To remove excess entries we will start from the end of the _entries |
| and remove all entries with EMPTY status until we find the first NON EMPTY. |
array and remove all entries with EMPTY status until we find the |
| This prevents the positions, of the NON EMPTY entries, from being changed. |
first NON EMPTY. This prevents the positions, of the NON EMPTY |
| */ |
entries, from being changed. |
| index = _entries.size() - 1; |
*/ |
| while(_entries[index]._status.get() == _MonitorEntry::EMPTY){ |
for (Uint32 index = _entries.size() - 1; |
| if(_entries.size() > MAX_NUMBER_OF_MONITOR_ENTRIES) |
(_entries[index].status == MonitorEntry::STATUS_EMPTY) && |
| _entries.remove(index); |
(index >= MAX_NUMBER_OF_MONITOR_ENTRIES); |
| index--; |
index--) |
| } |
|
| PEG_METHOD_EXIT(); |
|
| } |
|
| |
|
| // Note: this is no longer called with PEP 183. |
|
| ThreadReturnType PEGASUS_THREAD_CDECL Monitor::_dispatch(void *parm) |
|
| { |
|
| HTTPConnection *dst = reinterpret_cast<HTTPConnection *>(parm); |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: entering run() for indx = %d, queueId = %d, q = %p", |
|
| dst->_entry_index, dst->_monitor->_entries[dst->_entry_index].queueId, dst); |
|
| try |
|
| { |
|
| dst->run(1); |
|
| } |
|
| catch (...) |
|
| { |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: exception received"); |
|
| } |
|
| Tracer::trace(TRC_HTTP, Tracer::LEVEL4, |
|
| "Monitor::_dispatch: exited run() for index %d", dst->_entry_index); |
|
| |
|
| PEGASUS_ASSERT(dst->_monitor->_entries[dst->_entry_index]._status.get() == _MonitorEntry::BUSY); |
|
| |
|
| // Once the HTTPConnection thread has set the status value to either |
|
| // Monitor::DYING or Monitor::IDLE, it has returned control of the connection |
|
| // to the Monitor. It is no longer permissible to access the connection |
|
| // or the entry in the _entries table. |
|
| if (dst->_connectionClosePending) |
|
| { |
|
| dst->_monitor->_entries[dst->_entry_index]._status = _MonitorEntry::DYING; |
|
| } |
|
| else |
|
| { |
|
| dst->_monitor->_entries[dst->_entry_index]._status = _MonitorEntry::IDLE; |
|
| } |
|
| return 0; |
|
| } |
|
| // Added for NamedPipe implementation for windows |
|
| #if defined PEGASUS_OS_TYPE_WINDOWS && !defined(PEGASUS_DISABLE_LOCAL_DOMAIN_SOCKET) |
|
| //This method is anlogus to solicitSocketMessages. It does the same thing for named Pipes |
|
| int Monitor::solicitPipeMessages( |
|
| NamedPipe namedPipe, |
|
| Uint32 events, //not sure what has to change for this enum |
|
| Uint32 queueId, |
|
| int type) |
|
| { |
|
| PEG_METHOD_ENTER(TRC_HTTP, "Monitor::solicitPipeMessages"); |
|
| AutoMutex autoMut(_entry_pipe_mut); |
|
| // Check to see if we need to dynamically grow the _entries array |
|
| // We always want the _entries array to 2 bigger than the |
|
| // current connections requested |
|
| #ifdef PEGASUS_LOCALDOMAINSOCKET_DEBUG |
|
| { |
|
| AutoMutex automut(Monitor::_cout_mut); |
|
| PEGASUS_STD(cout) << "In Monitor::solicitPipeMessages at the begining" << PEGASUS_STD(endl); |
|
| } |
|
| #endif |
|
| |
|
| _solicitPipeCount++; // bump the count |
|
| int size = (int)_entries_pipe.size(); |
|
| if((int)_solicitPipeCount >= (size-1)){ |
|
| for(int i = 0; i < ((int)_solicitPipeCount - (size-1)); i++){ |
|
| _MonitorEntry entry(0, 0, 0); |
|
| _entries_pipe.append(entry); |
|
| } |
|
| } |
|
| |
|
| int index; |
|
| for(index = 1; index < (int)_entries_pipe.size(); index++) |
|
| { | { |
| try |
_entries.remove(index); |
| { |
|
| if(_entries_pipe[index]._status.get() == _MonitorEntry::EMPTY) |
|
| { |
|
| _entries_pipe[index].socket = NULL; |
|
| _entries_pipe[index].namedPipe = namedPipe; |
|
| _entries_pipe[index].namedPipeConnection = true; |
|
| _entries_pipe[index].queueId = queueId; |
|
| _entries_pipe[index]._type = type; |
|
| _entries_pipe[index]._status = _MonitorEntry::IDLE; |
|
| #ifdef PEGASUS_LOCALDOMAINSOCKET_DEBUG |
|
| { |
|
| AutoMutex automut(Monitor::_cout_mut); |
|
| PEGASUS_STD(cout) << "In Monitor::solicitPipeMessages after seting up _entries[index] index = " << index << PEGASUS_STD(endl); |
|
| } |
|
| #endif |
|
| |
|
| return index; |
|
| } |
|
| } |
|
| catch(...) |
|
| { |
|
| } |
|
| |
|
| } |
|
| _solicitPipeCount--; // decrease the count, if we are here we didnt do anything meaningful |
|
| PEGASUS_STD(cout) << "In Monitor::solicitPipeMessages nothing happed - it didn't work" << PEGASUS_STD(endl); |
|
| |
|
| PEG_METHOD_EXIT(); |
|
| return -1; |
|
| |
|
| } |
|
| |
|
| ////////////////////////////////////////////////////////////////////////////// |
|
| // Method Name : unsolicitPipeMessages |
|
| // Input Parameter : namedPipe - type NamedPipe |
|
| // Return Type : void |
|
| //============================================================================ |
|
| // This method is invoked from HTTPAcceptor::handleEnqueue for server |
|
| // when the CLOSE_CONNECTION_MESSAGE is recieved. This method is also invoked |
|
| // from HTTPAcceptor::destroyConnections method when the CIMServer is shutdown. |
|
| // For the CIMClient, this is invoked from HTTPConnector::handleEnqueue when the |
|
| // CLOSE_CONNECTION_MESSAGE is recieved. This method is also invoked from |
|
| // HTTPConnector::disconnect when CIMClient requests a disconnect request. |
|
| // The list of _MonitorEntry is searched for the matching pipe. |
|
| // The Handle of the identified is closed and _MonitorEntry for the |
|
| // requested pipe is removed. |
|
| /////////////////////////////////////////////////////////////////////////////// |
|
| |
|
| void Monitor::unsolicitPipeMessages(NamedPipe namedPipe) |
|
| { |
|
| #ifdef PEGASUS_LOCALDOMAINSOCKET_DEBUG |
|
| { |
|
| AutoMutex automut(Monitor::_cout_mut); |
|
| PEGASUS_STD(cout) << "Entering: Monitor::unsolicitPipeMessages(): (tid:" << Uint32(pegasus_thread_self()) << ")" << PEGASUS_STD(endl); |
|
| } |
|
| #endif |
|
| |
|
| PEG_METHOD_ENTER(TRC_HTTP, "Monitor::unsolicitPipeMessages"); |
|
| AutoMutex autoMut(_entry_pipe_mut); |
|
| |
|
| /* |
|
| Start at index = 1 because _entries[0] is the tickle entry which never needs |
|
| to be EMPTY; |
|
| */ |
|
| unsigned int index; |
|
| for (index = 1; index < _entries_pipe.size(); index++) |
|
| { |
|
| if (_entries_pipe[index].namedPipe.getPipe() == namedPipe.getPipe()) |
|
| { |
|
| _entries_pipe[index]._status = _MonitorEntry::EMPTY; |
|
| // Ensure that the client has read the data |
|
| ::FlushFileBuffers (namedPipe.getPipe()); |
|
| //Disconnect to release the pipe. This doesn't release Pipe Handle |
|
| ::DisconnectNamedPipe (_entries_pipe[index].namedPipe.getPipe()); |
|
| // Must use CloseHandle to Close Pipe |
|
| ::CloseHandle(_entries_pipe[index].namedPipe.getPipe()); |
|
| _entries_pipe[index].namedPipe.disconnect(); |
|
| _solicitPipeCount--; |
|
| break; |
|
| } |
|
| } | } |
| | |
| /* |
|
| Dynamic Contraction: |
|
| To remove excess entries we will start from the end of the _entries array |
|
| and remove all entries with EMPTY status until we find the first NON EMPTY. |
|
| This prevents the positions, of the NON EMPTY entries, from being changed. |
|
| */ |
|
| index = _entries_pipe.size() - 1; |
|
| while (_entries_pipe[index]._status.get() == _MonitorEntry::EMPTY |
|
| && index > 0) |
|
| { |
|
| if ((_entries_pipe[index].namedPipe.getPipe() == namedPipe.getPipe()) || |
|
| (_entries_pipe.size() > MAX_NUMBER_OF_MONITOR_ENTRIES)) |
|
| { |
|
| _entries_pipe.remove(index); |
|
| } |
|
| index--; |
|
| } |
|
| PEG_METHOD_EXIT(); | PEG_METHOD_EXIT(); |
| #ifdef PEGASUS_LOCALDOMAINSOCKET_DEBUG |
|
| { |
|
| AutoMutex automut(Monitor::_cout_mut); |
|
| PEGASUS_STD(cout) << "Exiting: Monitor::unsolicitPipeMessages(): (tid:" << Uint32(pegasus_thread_self()) << ")" << PEGASUS_STD(endl); |
|
| } | } |
| #endif |
|
| } |
|
| |
|
| #endif |
|
| |
|
| |
|
| | |
| PEGASUS_NAMESPACE_END | PEGASUS_NAMESPACE_END |
Return to
Monitor.cpp
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