// The contents of this file are subject to the Mozilla Public License // Version 1.1 (the "License"); you may not use this file except in // compliance with the License. You may obtain a copy of the License // at http://www.mozilla.org/MPL/ // // Software distributed under the License is distributed on an "AS IS" // basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See // the License for the specific language governing rights and // limitations under the License. // // The Initial Developer of the Original Code is Kipp E.B. Hickman. #ifndef __leaky_h_ #define __leaky_h_ #include "config.h" #include #include #include #include "dict.h" #include "strset.h" typedef unsigned int u_int; struct Symbol; struct TreeNode { TreeNode(Symbol* aSymbol) { symbol = aSymbol; nextSibling = NULL; descendants = NULL; nextRoot = NULL; bytesLeaked = 0; descendantBytesLeaked = 0; } TreeNode* GetDirectDescendant(Symbol* aSymbol); bool HasDescendants() const { return NULL != descendants; } TreeNode* AddDescendant(Symbol* aSymbol); TreeNode* descendants; TreeNode* nextSibling; TreeNode* nextRoot; Symbol* symbol; u_long bytesLeaked; u_long descendantBytesLeaked; void* operator new(size_t size) CPP_THROW_NEW ; void operator delete(void* ptr); static TreeNode* freeList; }; struct Symbol { char* name; u_long address; TreeNode* root; void Init(const char* aName, u_long aAddress) { name = aName ? strdup(aName) : (char *)""; address = aAddress; root = NULL; } }; struct LoadMapEntry { char* name; // name of .so u_long address; // base address where it was mapped in LoadMapEntry* next; }; struct leaky { leaky(); ~leaky(); void initialize(int argc, char** argv); void open(); char* applicationName; char* logFile; char* progFile; int dumpLeaks; int dumpGraph; int dumpHTML; int quiet; int dumpEntireLog; int showAddress; bool dumpRefcnts; u_int stackDepth; int mappedLogFile; malloc_log_entry* firstLogEntry; malloc_log_entry* lastLogEntry; u_int buckets; MallocDict* dict; MallocDict* refcntDict; u_long mallocs; u_long reallocs; u_long frees; u_long totalMalloced; u_long errors; u_long totalLeaked; int sfd; Symbol* externalSymbols; u_int usefulSymbols; u_int numExternalSymbols; StrSet exclusions; u_long lowestSymbolAddr; u_long highestSymbolAddr; LoadMapEntry* loadMap; TreeNode* rootList; StrSet roots; StrSet includes; void usageError(); void LoadMap(); void analyze(); void dumpLog(); void dumpEntryToLog(malloc_log_entry* lep); #if 0 void dumpToTree(); void dumpEntryToTree(FILE* fp, malloc_log_entry* lep); #endif void insertAddress(u_long address, malloc_log_entry* lep); void removeAddress(u_long address, malloc_log_entry* lep); void displayStackTrace(FILE* out, malloc_log_entry* lep); void ReadSymbols(const char* fileName, u_long aBaseAddress); void ReadSharedLibrarySymbols(); void setupSymbols(const char* fileName); Symbol* findSymbol(u_long address); bool excluded(malloc_log_entry* lep); bool included(malloc_log_entry* lep); void buildLeakGraph(); Symbol* findLeakGraphRoot(Symbol* aStart, Symbol* aEnd); void dumpLeakGraph(); void dumpLeakTree(TreeNode* aNode, int aIndent); bool ShowThisEntry(malloc_log_entry* lep); bool IsRefcnt(malloc_log_entry* lep) const { return (lep->type == malloc_log_addref) || (lep->type == malloc_log_release); } static void indentBy(int aCount) { while (--aCount >= 0) fputs(" ", stdout); } }; #endif /* __leaky_h_ */