/* * Copyright (c) 2019 TAOS Data, Inc. * * This program is free software: you can use, redistribute, and/or modify * it under the terms of the GNU Affero General Public License, version 3 * or later ("AGPL"), as published by the Free Software Foundation. * * This program 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. * * You should have received a copy of the GNU Affero General Public License * along with this program. If not, see . */ #define ALLOW_FORBID_FUNC #include #include "os.h" #ifdef USE_TD_MEMORY #define TD_MEMORY_SYMBOL ('T'<<24|'A'<<16|'O'<<8|'S') #define TD_MEMORY_STACK_TRACE_DEPTH 10 typedef struct TdMemoryInfo *TdMemoryInfoPtr; typedef struct TdMemoryInfo { int32_t symbol; int32_t memorySize; void *stackTrace[TD_MEMORY_STACK_TRACE_DEPTH]; // gdb: disassemble /m 0xXXX // TdMemoryInfoPtr pNext; // TdMemoryInfoPtr pPrev; } TdMemoryInfo; // static TdMemoryInfoPtr GlobalMemoryPtr = NULL; #ifdef WINDOWS #define tstrdup(str) _strdup(str) #else #define tstrdup(str) strdup(str) #include #define STACKCALL __attribute__((regparm(1), noinline)) void **STACKCALL taosGetEbp(void) { void **ebp = NULL; __asm__ __volatile__("mov %%rbp, %0;\n\t" : "=m"(ebp) /* output */ : /* input */ : "memory"); /* not affect register */ return (void **)(*ebp); } int32_t taosBackTrace(void **buffer, int32_t size) { int32_t frame = 0; void **ebp; void **ret = NULL; size_t func_frame_distance = 0; if (buffer != NULL && size > 0) { ebp = taosGetEbp(); func_frame_distance = (size_t)*ebp - (size_t)ebp; while (ebp && frame < size && (func_frame_distance < (1ULL << 24)) // assume function ebp more than 16M && (func_frame_distance > 0)) { ret = ebp + 1; buffer[frame++] = *ret; ebp = (void **)(*ebp); func_frame_distance = (size_t)*ebp - (size_t)ebp; } } return frame; } #endif // char **taosBackTraceSymbols(int32_t *size) { // void *buffer[20] = {NULL}; // *size = taosBackTrace(buffer, 20); // return backtrace_symbols(buffer, *size); // } #endif void *taosMemoryMalloc(int32_t size) { #ifdef USE_TD_MEMORY void *tmp = malloc(size + sizeof(TdMemoryInfo)); if (tmp == NULL) return NULL; TdMemoryInfoPtr pTdMemoryInfo = (TdMemoryInfoPtr)tmp; pTdMemoryInfo->memorySize = size; pTdMemoryInfo->symbol = TD_MEMORY_SYMBOL; taosBackTrace(pTdMemoryInfo->stackTrace,TD_MEMORY_STACK_TRACE_DEPTH); return (char*)tmp + sizeof(TdMemoryInfo); #else return malloc(size); #endif } void *taosMemoryCalloc(int32_t num, int32_t size) { #ifdef USE_TD_MEMORY int32_t memorySize = num * size; char *tmp = calloc(memorySize + sizeof(TdMemoryInfo), 1); if (tmp == NULL) return NULL; TdMemoryInfoPtr pTdMemoryInfo = (TdMemoryInfoPtr)tmp; pTdMemoryInfo->memorySize = memorySize; pTdMemoryInfo->symbol = TD_MEMORY_SYMBOL; taosBackTrace(pTdMemoryInfo->stackTrace,TD_MEMORY_STACK_TRACE_DEPTH); return (char*)tmp + sizeof(TdMemoryInfo); #else return calloc(num, size); #endif } void *taosMemoryRealloc(void *ptr, int32_t size) { #ifdef USE_TD_MEMORY if (ptr == NULL) return taosMemoryMalloc(size); TdMemoryInfoPtr pTdMemoryInfo = (TdMemoryInfoPtr)((char*)ptr - sizeof(TdMemoryInfo)); assert(pTdMemoryInfo->symbol == TD_MEMORY_SYMBOL); TdMemoryInfo tdMemoryInfo; memcpy(&tdMemoryInfo, pTdMemoryInfo, sizeof(TdMemoryInfo)); void *tmp = realloc(pTdMemoryInfo, size + sizeof(TdMemoryInfo)); if (tmp == NULL) return NULL; memcpy(tmp, &tdMemoryInfo, sizeof(TdMemoryInfo)); ((TdMemoryInfoPtr)tmp)->memorySize = size; return (char*)tmp + sizeof(TdMemoryInfo); #else return realloc(ptr, size); #endif } void *taosMemoryStrDup(void *ptr) { #ifdef USE_TD_MEMORY if (ptr == NULL) return NULL; TdMemoryInfoPtr pTdMemoryInfo = (TdMemoryInfoPtr)((char*)ptr - sizeof(TdMemoryInfo)); assert(pTdMemoryInfo->symbol == TD_MEMORY_SYMBOL); void *tmp = tstrdup((const char *)pTdMemoryInfo); if (tmp == NULL) return NULL; memcpy(tmp, pTdMemoryInfo, sizeof(TdMemoryInfo)); taosBackTrace(((TdMemoryInfoPtr)tmp)->stackTrace,TD_MEMORY_STACK_TRACE_DEPTH); return (char*)tmp + sizeof(TdMemoryInfo); #else return tstrdup((const char *)ptr); #endif } void taosMemoryFree(void *ptr) { if (ptr == NULL) return; #ifdef USE_TD_MEMORY TdMemoryInfoPtr pTdMemoryInfo = (TdMemoryInfoPtr)((char*)ptr - sizeof(TdMemoryInfo)); if(pTdMemoryInfo->symbol == TD_MEMORY_SYMBOL) { pTdMemoryInfo->memorySize = 0; // memset(pTdMemoryInfo, 0, sizeof(TdMemoryInfo)); free(pTdMemoryInfo); } else { free(ptr); } #else return free(ptr); #endif } int32_t taosMemorySize(void *ptr) { if (ptr == NULL) return 0; #ifdef USE_TD_MEMORY TdMemoryInfoPtr pTdMemoryInfo = (TdMemoryInfoPtr)((char*)ptr - sizeof(TdMemoryInfo)); assert(pTdMemoryInfo->symbol == TD_MEMORY_SYMBOL); return pTdMemoryInfo->memorySize; #else #ifdef WINDOWS return _msize(ptr); #else return malloc_usable_size(ptr); #endif #endif }