CASA/CASA-auth-token/non-java/utilities/IpcLibs/linux/client/remoteendpoint.cpp

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/***********************************************************************
*
* Copyright (C) 2006 Novell, Inc. All Rights Reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; version 2.1
* of the License.
*
* 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 Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, Novell, Inc.
*
* To contact Novell about this file by physical or electronic mail,
* you may find current contact information at www.novell.com.
*
* Author: Juan Carlos Luciani <jluciani@novell.com>
*
***********************************************************************/
//===[ Include files ]=====================================================
#include "ipcint.h"
#include "cchannel.h"
#include "clientreq.h"
#include "remoteendpoint.h"
#include <assert.h> // Ensure that NDEBUG is defined for release builds!
//===[ External data ]=====================================================
//===[ External prototypes ]===============================================
//===[ Manifest constants ]================================================
#define REMOTE_ENDPOINT_SIGNATURE 0x54525653 // SVRT
//===[ Type definitions ]==================================================
//===[ Function prototypes ]===============================================
//===[ Global variables ]==================================================
//===[ Type definitions ]==================================================
//===[ Function prototypes ]===============================================
//===[ Global variables ]==================================================
//
// Object Counters
//
unsigned long numRemoteEndPointObjects = 0;
//++=======================================================================
RemoteEndPoint::RemoteEndPoint(
bool multithreaded,
int maxRpcRetries,
char *pSocketFileName) :
m_signature (REMOTE_ENDPOINT_SIGNATURE),
m_numChannelSubmits (0),
m_maxRpcRetries (maxRpcRetries)
//
// Arguments:
//
// Returns:
//
// Abstract:
//
// Notes:
//
// L1
//=======================================================================--
{
DbgTrace(1, "RemoteEndPoint::RemoteEndPoint- Start, Obj = %08X\n", this);
// Initialize our mutex
pthread_mutex_init(&m_mutex, NULL);
// Set the necessary information in the m_serverUnAddr variable
m_serverUnAddr.sun_family = AF_UNIX;
strcpy(m_serverUnAddr.sun_path, pSocketFileName);
// Set the necessary flags to indicate that DOMAIN sockets
// should be used for communications.
m_Use_PF_UNIX = true;
m_Use_AF_INET = false;
// Setup the number of channels that we may have based on
// whether the application is multi-threaded or not.
if (multithreaded)
m_numCChannels = MAX_CHANNELS_PER_ENDPOINT;
else
m_numCChannels = 1;
// Instantiate entries in SmartCChannel vector
try {
for (int i = 0; i < m_numCChannels; i++)
m_cchannelVector.push_back(SmartCChannelPointer());
} catch (...) {
DbgTrace(0, "RemoteEndPoint::RemoteEndPoint- Exception caught while initializing the cchannelVector\n", 0);
throw bad_alloc();
}
// Increment the object count
InterlockedIncrement(&numRemoteEndPointObjects);
DbgTrace(1, "RemoteEndPoint::RemoteEndPoint- End\n", 0);
} /*-- RemoteEndPoint::RemoteEndPoint() --*/
//++=======================================================================
RemoteEndPoint::RemoteEndPoint(
bool multithreaded,
int maxRpcRetries,
unsigned short int port,
uint32_t address) :
m_signature (REMOTE_ENDPOINT_SIGNATURE),
m_numChannelSubmits (0),
m_maxRpcRetries (maxRpcRetries)
//
// Arguments:
//
// Returns:
//
// Abstract:
//
// Notes:
//
// L2
//=======================================================================--
{
DbgTrace(1, "RemoteEndPoint::RemoteEndPoint- Start, Obj = %08X\n", this);
// Initialize our mutex
pthread_mutex_init(&m_mutex, NULL);
// Set the necessary information in the serverInAddr variable
m_serverInAddr.sin_family = AF_INET;
m_serverInAddr.sin_port = htons(port);
m_serverInAddr.sin_addr.s_addr = htonl(address);
// Set the necessary flags to indicate that TCP sockets
// should be used for communications.
m_Use_AF_INET = true;
m_Use_PF_UNIX = false;
// Setup the number of channels that we may have based on
// whether the application is multi-threaded or not.
if (multithreaded)
m_numCChannels = MAX_CHANNELS_PER_ENDPOINT;
else
m_numCChannels = 1;
// Instantiate entries in SmartCChannel vector
try {
for (int i = 0; i < m_numCChannels; i++)
m_cchannelVector.push_back(SmartCChannelPointer());
} catch (...) {
DbgTrace(0, "RemoteEndPoint::RemoteEndPoint- Exception caught while initializing the cchannelVector\n", 0);
throw bad_alloc();
}
// Increment the object count
InterlockedIncrement(&numRemoteEndPointObjects);
DbgTrace(1, "RemoteEndPoint::RemoteEndPoint- End\n", 0);
} /*-- RemoteEndPoint::RemoteEndPoint() --*/
//++=======================================================================
RemoteEndPoint::~RemoteEndPoint(void)
//
// Arguments:
//
// Returns:
//
// Abstract:
//
// Notes:
//
// L2
//=======================================================================--
{
DbgTrace(1, "RemoteEndPoint::~RemoteEndPoint- Start, Obj = %08X\n", this);
// Clean up all allocated SmartCChannel objects
for (int i = 0; i < m_cchannelVector.size(); i++)
{
if (m_cchannelVector[i].getPointer() != NULL)
{
CChannel *pCChannel = *(m_cchannelVector[i].getPointer());
pCChannel->closeChannel();
}
}
m_cchannelVector.clear();
// Decrement the object count
InterlockedDecrement(&numRemoteEndPointObjects);
DbgTrace(1, "RemoteEndPoint::~RemoteEndPoint- End\n", 0);
} /*-- RemoteEndPoint::~RemoteEndPoint() --*/
//++=======================================================================
SmartCChannel*
RemoteEndPoint::getCChannel(void)
//
// Arguments:
//
// Returns:
//
// Abstract:
//
// Notes:
//
// L2
//=======================================================================--
{
SmartCChannel *pSmartCChannel = NULL;
int channelSelector = (m_numChannelSubmits++) % m_numCChannels;
DbgTrace(1, "RemoteEndPoint::getCChannel- Start, Obj = %08X\n", this);
#if DEBUG
assert(m_signature == REMOTE_ENDPOINT_SIGNATURE);
#endif
// Obtain our mutex
pthread_mutex_lock(&m_mutex);
// Check if there is an available and usable channel for the client
if (m_cchannelVector[channelSelector].getPointer() != NULL
&& (*m_cchannelVector[channelSelector].getPointer())->ok())
{
// Use the available channel
pSmartCChannel = new SmartCChannel(*m_cchannelVector[channelSelector].getPointer());
}
else
{
// The channel is either unavailable or unusable, clean up
// the channel if it is indeed unusable.
if (m_cchannelVector[channelSelector].getPointer() != NULL)
{
// Clean up the channel
CChannel *pCChannel = *m_cchannelVector[channelSelector].getPointer();
pCChannel->closeChannel();
delete m_cchannelVector[channelSelector].getPointer();
m_cchannelVector[channelSelector].setPointer(NULL);
}
CChannel *pCChannel;
try {
// Use the appropriate server address when instantiating
// the CChannel object.
if (m_Use_PF_UNIX)
{
// PF_UNIX
pCChannel = new CChannel(&m_serverUnAddr);
}
else
{
// Assume AF_INET
pCChannel = new CChannel(&m_serverInAddr);
}
// CChannel object created, now associate a SmartCChannel
// object with it. It is important to do this to keep
// the object from being deleted as we initialize it.
m_cchannelVector[channelSelector].setPointer(new SmartCChannel(pCChannel));
// Initialize the CChannel
if (pCChannel->init() == 0)
{
// CChannel initialization succeeded, use it to
// satisfy the caller.
pSmartCChannel = new SmartCChannel(*m_cchannelVector[channelSelector].getPointer());
}
else
{
// CChannel initialization failed
delete m_cchannelVector[channelSelector].getPointer();
m_cchannelVector[channelSelector].setPointer(NULL);
}
}
catch (...) {
DbgTrace(0, "getCChannel- Exception caught\n", 0);
// Try to clean things up just in case
if (m_cchannelVector[channelSelector].getPointer())
{
delete m_cchannelVector[channelSelector].getPointer();
m_cchannelVector[channelSelector].setPointer(NULL);
}
else
{
if (pCChannel != NULL)
delete pCChannel;
}
}
}
// Release client mutex
pthread_mutex_unlock(&m_mutex);
DbgTrace(1, "RemoteEndPoint::getCChannel- End\n", 0);
return pSmartCChannel;
} /*-- RemoteEndPoint::getCChannel() --*/
//++=======================================================================
int
RemoteEndPoint::submitReq(
char *pClientData,
int clientDataLen,
char **ppServerData,
int *pServerDataLen)
//
// Arguments:
//
// Returns:
//
// Abstract:
//
// Notes:
//
// L2
//=======================================================================--
{
int retStatus = -1;
DbgTrace(1, "RemoteEndPoint::submitReq- Start, Obj = %08X\n", this);
try {
SmartCChannel *pSmartCChannel;
// Perform the following in a loop to deal with abnormal connection terminations
unsigned long rpcRetryCount = 0;
while (rpcRetryCount < m_maxRpcRetries)
{
// Get SmartCChannel
pSmartCChannel = getCChannel();
if (pSmartCChannel != NULL)
{
// Get pointer to channel object
CChannel *pCChannel = *pSmartCChannel;
// Allocate a requestId
uint32_t reqId = pCChannel->allocReqId();
// Allocate client request object.
ClientReq clientReq(reqId);
// Submit the request via the channel
if (pCChannel->submitReq(reqId,
clientReq,
pClientData,
clientDataLen) == 0)
{
// Request submission over the channel succeeded, now
// wait for the completion of the request.
clientReq.waitForCompletion(ppServerData,
pServerDataLen);
// Remove the request from the channel
pCChannel->removeReq(reqId);
// Now proceed based on the completion status
ClientReq::CompletionStatus compStatus = clientReq.completionStatus();
if (compStatus == ClientReq::SuccessCompletionStatus)
{
// Success
retStatus = 0;
}
}
else
{
DbgTrace(0, "RemoteEndPoint::submitReq- Request submittion over the channel failed\n", 0);
// Remove the request from the channel
pCChannel->removeReq(reqId);
}
// Delete the SmartCChannel
delete pSmartCChannel;
}
else
{
DbgTrace(0, "RemoteEndPoint::submitReq- Channel unavailable\n", 0);
}
// Stop trying if the RPC succeeded
if (retStatus == 0)
break;
// Account for this RPC try
rpcRetryCount ++;
DbgTrace(0, "RemoteEndPoint::submitReq- Will attempt to retry RPC, count = %d\n", rpcRetryCount);
}
}
catch(...) {
DbgTrace(0, "RemoteEndPoint::submitReq- Exception caught\n", 0);
}
DbgTrace(1, "RemoteEndPoint::submitReq- End\n", 0);
return retStatus;
} /*-- RemoteEndPoint::submitReq() --*/
//=========================================================================
//=========================================================================