/******************************************************************************* Copyright (c) 2010, Perforce Software, Inc. All rights reserved. Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: 1. Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. 2. Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL PERFORCE SOFTWARE, INC. BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. *******************************************************************************/ /******************************************************************************* * Name : p4base.h * * Author : dbb * * Description : p4base is the base class for all classes which handles * (pointers)for instances of those classes are passed in and out if the DLL. * It provides a mechanism to register the handles to those objects when they * are created so they can be validated when passed in as parameters. * ******************************************************************************/ #ifdef _WIN32 #include "stdafx.h" #endif #include "p4base.h" #include "lock.h" /******************************************************************************* * Keep a doubly linked list of handles for each type to be tracked. *******************************************************************************/ #ifdef _DEBUG #ifdef _DEBUG_MEMORY #include <tchar.h>; #endif p4base** p4base::pFirstObject = NULL; p4base** p4base::pLastObject = NULL; int p4base::ItemCount = 0; int p4base::ItemCounts[p4typesCount]; int p4base::TotalItems = 1; int p4base::NextItemIds[p4typesCount]; #endif int p4base::InitP4BaseLocker() { Locker.InitCritSection(); return 1; } // Used to lock access for multi threading ILockable p4base::Locker = ILockable(); int p4base::P4BaseLockerInit = p4base::InitP4BaseLocker(); /******************************************************************************* * Constructor * * Add this object to the correct list, based on its type. * * nType: The type of this object. It is passed from the derived objects * constructer so it can be determined at run time. A call to the virtual * function GetType() does not work here in the base class constructor. * *******************************************************************************/ p4base::p4base(int ntype) { // save the type for use in the destructor when we can no longer use the // virtual function GetType(). type = ntype; #ifdef _DEBUG LOCK(&Locker); // Check to see if we have allocated are array of lists yet. These will only // be created when the first object is registered. if (!pFirstObject) { pFirstObject = new p4base*[p4typesCount]; for (int i = 0; i < p4typesCount; i++) { pFirstObject[i] = NULL; ItemCounts[i] = 0; NextItemIds[i] = 0; } } if (!pLastObject) { pLastObject = new p4base*[p4typesCount]; for (int i = 0; i < p4typesCount; i++) { pLastObject[i] = NULL; } } // Initialize the list pointers pNextItem = NULL; pPrevItem = NULL; // Add to the list of objects registered to be exported if(!pFirstObject[type]) { // first object, initialize the list with this as the only element pFirstObject[type] = this; pLastObject[type] = this; } else { // add to the end of the list pLastObject[type]->pNextItem = this; pPrevItem = pLastObject[type]; pLastObject[type] = this; } ItemCount++; ItemCounts[type]++; TotalItems++; ItemId = ++NextItemIds[type]; #ifdef _DEBUG_MEMORY LogMemoryEvent("Creating Object"); #endif #endif } /******************************************************************************* * Destructor * * Remove this object from the correct list, based on its type. * *******************************************************************************/ p4base::~p4base(void) { #ifdef _DEBUG LOCK(&Locker); #ifdef _DEBUG_MEMORY LogMemoryEvent("Deleting Object"); #endif ItemCount--; ItemCounts[type]--; // Remove from the list if (!pPrevItem && !pNextItem) { // last object in the list, so NULL out the list head and tail pointers pFirstObject[type] = NULL; pLastObject[type] = NULL; } else if (!pPrevItem && pNextItem) { // first object in list, set the head to the next object in the list pFirstObject[type] = pNextItem; pNextItem->pPrevItem = NULL; } else if (pPrevItem && !pNextItem) { // last object, set the tail to the pervious object in the list pLastObject[type] = pPrevItem; pPrevItem->pNextItem = NULL; } else { // in the middle of the list, so link the pointers for the previous // and next objects. pPrevItem->pNextItem = pNextItem; pNextItem->pPrevItem = pPrevItem; } #endif } void p4base::Cleanup(void) { #ifdef _DEBUG if (pFirstObject) { delete[] pFirstObject; } if (pLastObject) { delete[] pLastObject; } #endif } int p4base::ValidateHandle_Int( p4base* pObject, int type ) { if (!pObject) return 0; p4base* pCur = NULL; // Use Windows Structured Exception Handling to detect memory violations __try { if ((type < 0) || (type >=p4typesCount) || (type != pObject->Type())) { return 0; // invalid type } #ifndef _DEBUG return 1; } __except (1) //EXCEPTION_EXECUTE_HANDLER #ifdef _WIN32 { // access violation, so definitely not valid. return 0; } #endif #else pCur = pFirstObject[type]; } #ifdef _WIN32 __except (1) //EXCEPTION_EXECUTE_HANDLER { // access violation, so definitely not valid. return 0; } while ( pCur != NULL) { if (pObject == pCur) // pointers are the same { return 1; } pCur = pCur->pNextItem; } #endif // _WIN32 #endif return 0; } /******************************************************************************* * ValidateHandle( p4base* pObject ) * * Static function to validate a handle * * nType: The type of this object. It is passed from the derived objects * constructer so it can be determined at run time. A call to the virtual * function GetType() does not work here in the base class constructor. * *******************************************************************************/ int p4base::ValidateHandle( p4base* pObject, int type ) { LOCK(&Locker); return ValidateHandle_Int( pObject, type ); } #ifdef _DEBUG char* p4base::GetTypeStr(int type) { switch (type) { case tP4BridgeServer: return "P4BridgeServer"; case tP4BridgeClient: return "BridgeClient"; case tStrDictListIterator: return "StrDictListIterator"; case tStrDictList: return "StrDictList"; case tKeyValuePair: return "KeyValuePair"; case tP4ClientError: return "P4ClientError"; case tP4MapApi: return "P4MapApi"; case tP4P4FileSys: return "P4P4FileSys"; case tP4ClientMerge: return "P4ClientMerge"; case tP4ClientResolve: return "P4ClientResolve"; case tP4ClientInfoMsg: return "P4ClientInfoMsg"; case p4typesCount: return "Error!p4typesCount"; #ifdef _DEBUG_MEMORY case tConnectionManager: return "ConnectionManager"; case tP4Connection: return "P4Connection"; //case tIdleConnection: // return "IdleConnection"; #endif default: return "Error!UnknownType"; } } #ifdef _DEBUG_MEMORY static char* MemLogFile = "c:\\tmp\\p4bridge.memory.log.txt"; void p4base::LogMemoryEvent(char * Event) { HANDLE hLogFile = CreateFile( MemLogFile,GENERIC_WRITE,0,NULL,OPEN_ALWAYS,FILE_ATTRIBUTE_NORMAL,NULL); SetFilePointer(hLogFile,0,NULL,FILE_END); if (hLogFile == INVALID_HANDLE_VALUE) { return; } DWORD dwBytesWritten = 0; int bErrorFlag = WriteFile( hLogFile, // open file handle Event, // start of data to write strlen(Event), // number of bytes to write &dwBytesWritten, // number of bytes that were written NULL); // no overlapped structure char lineBuf[1024]; int chars = _snprintf(lineBuf, 1024, ": Type:%s, ItemId = %d, ItemCount = %d\r\n", GetTypeStr(type), GetItemId(), GetItemCount(type)); bErrorFlag = WriteFile( hLogFile, // open file handle lineBuf, // start of data to write chars, // number of bytes to write &dwBytesWritten, // number of bytes that were written NULL); // no overlapped structure CloseHandle(hLogFile); } void p4base::PrintMemoryState(char *Title) { printf("%s: Object Count Dump\r\n", Title); printf("All Item Types : %d Items Created, %d items remaining \r\n", GetTotalItemCount(), GetItemCount()); for (int i = 0; i < p4typesCount; i++) { printf("Type:%s : %d Items Created, %d items remaining \r\n", GetTypeStr(i), NextItemIds[i], GetItemCount(i)); } } void p4base::DumpMemoryState(char *Title) { char lineBuf[1024] ; int chars; int bErrorFlag; DWORD dwBytesWritten = 0; HANDLE hLogFile = CreateFile( MemLogFile,GENERIC_WRITE,0,NULL,OPEN_ALWAYS,FILE_ATTRIBUTE_NORMAL,NULL); SetFilePointer(hLogFile,0,NULL,FILE_END); chars = _snprintf(lineBuf, 1024, "%s: Object Count Dump\r\n", Title); bErrorFlag = WriteFile( hLogFile, // open file handle lineBuf, // start of data to write chars, // number of bytes to write &dwBytesWritten, // number of bytes that were written NULL); // no overlapped structure chars = _snprintf(lineBuf, 1024, "All Item Types : %d Items Created, %d items remaining \r\n", GetTotalItemCount(), GetItemCount()); bErrorFlag = WriteFile( hLogFile, // open file handle lineBuf, // start of data to write chars, // number of bytes to write &dwBytesWritten, // number of bytes that were written NULL); // no overlapped structure for (int i = 0; i < p4typesCount; i++) { chars = _snprintf(lineBuf, 1024, "Type:%s : %d Items Created, %d items remaining \r\n", GetTypeStr(i), NextItemIds[i], GetItemCount(i)); bErrorFlag = WriteFile( hLogFile, // open file handle lineBuf, // start of data to write chars, // number of bytes to write &dwBytesWritten, // number of bytes that were written NULL); // no overlapped structure } CloseHandle(hLogFile); } #else void p4base::LogMemoryEvent(char * Event) {} void p4base::PrintMemoryState(char *Title) {} void p4base::DumpMemoryState(char *Title) {} #endif #endif
# | Change | User | Description | Committed | |
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#1 | 18970 | rtande |
Merging //guest/perforce_software/p4connect/main/src/... to //rtande/p4connect/main/src/... |
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//guest/perforce_software/p4connect/main/src/P4Bridge/p4bridge/p4base.cpp | |||||
#1 | 16209 | Norman Morse | Move entire source tree into "main" branch so workshop code will act correctly. | ||
//guest/perforce_software/p4connect/src/P4Bridge/p4bridge/p4base.cpp | |||||
#2 | 12135 | Norman Morse |
Integrate dev branch changes into main. This code is the basiis of the 2.7 BETA release which provides Unity 5 compatibility |
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#1 | 10940 | Norman Morse |
Inital Workshop release of P4Connect. Released under BSD-2 license |