/***************************************************************************** Copyright (c) 1994, 2010, Innobase Oy. All Rights Reserved. This program is free software; you can redistribute it and/or modify it under the terms of the GNU General Public License as published by the Free Software Foundation; version 2 of the License. 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. See the GNU General Public License for more details. You should have received a copy of the GNU General Public License along with this program; if not, write to the Free Software Foundation, Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA *****************************************************************************/ /**************************************************//** @file include/mem0mem.h The memory management Created 6/9/1994 Heikki Tuuri *******************************************************/ #ifndef mem0mem_h #define mem0mem_h #include "univ.i" #include "ut0mem.h" #include "ut0byte.h" #include "ut0rnd.h" #ifndef UNIV_HOTBACKUP # include "sync0sync.h" #endif /* UNIV_HOTBACKUP */ #include "ut0lst.h" #include "mach0data.h" /* -------------------- MEMORY HEAPS ----------------------------- */ /* The info structure stored at the beginning of a heap block */ typedef struct mem_block_info_struct mem_block_info_t; /* A block of a memory heap consists of the info structure followed by an area of memory */ typedef mem_block_info_t mem_block_t; /* A memory heap is a nonempty linear list of memory blocks */ typedef mem_block_t mem_heap_t; /* Types of allocation for memory heaps: DYNAMIC means allocation from the dynamic memory pool of the C compiler, BUFFER means allocation from the buffer pool; the latter method is used for very big heaps */ #define MEM_HEAP_DYNAMIC 0 /* the most common type */ #define MEM_HEAP_BUFFER 1 #define MEM_HEAP_BTR_SEARCH 2 /* this flag can optionally be ORed to MEM_HEAP_BUFFER, in which case heap->free_block is used in some cases for memory allocations, and if NULL, the memory allocation functions can return NULL. */ /* The following start size is used for the first block in the memory heap if the size is not specified, i.e., 0 is given as the parameter in the call of create. The standard size is the maximum (payload) size of the blocks used for allocations of small buffers. */ #define MEM_BLOCK_START_SIZE 64 #define MEM_BLOCK_STANDARD_SIZE \ (UNIV_PAGE_SIZE >= 16384 ? 8000 : MEM_MAX_ALLOC_IN_BUF) /* If a memory heap is allowed to grow into the buffer pool, the following is the maximum size for a single allocated buffer: */ #define MEM_MAX_ALLOC_IN_BUF (UNIV_PAGE_SIZE - 200) /******************************************************************//** Initializes the memory system. */ UNIV_INTERN void mem_init( /*=====*/ ulint size); /*!< in: common pool size in bytes */ /******************************************************************//** Closes the memory system. */ UNIV_INTERN void mem_close(void); /*===========*/ /**************************************************************//** Use this macro instead of the corresponding function! Macro for memory heap creation. */ #define mem_heap_create(N) mem_heap_create_func(\ (N), MEM_HEAP_DYNAMIC, __FILE__, __LINE__) /**************************************************************//** Use this macro instead of the corresponding function! Macro for memory heap creation. */ #define mem_heap_create_in_buffer(N) mem_heap_create_func(\ (N), MEM_HEAP_BUFFER, __FILE__, __LINE__) /**************************************************************//** Use this macro instead of the corresponding function! Macro for memory heap creation. */ #define mem_heap_create_in_btr_search(N) mem_heap_create_func(\ (N), MEM_HEAP_BTR_SEARCH | MEM_HEAP_BUFFER,\ __FILE__, __LINE__) /**************************************************************//** Use this macro instead of the corresponding function! Macro for memory heap freeing. */ #define mem_heap_free(heap) mem_heap_free_func(\ (heap), __FILE__, __LINE__) /*****************************************************************//** NOTE: Use the corresponding macros instead of this function. Creates a memory heap. For debugging purposes, takes also the file name and line as arguments. @return own: memory heap, NULL if did not succeed (only possible for MEM_HEAP_BTR_SEARCH type heaps) */ UNIV_INLINE mem_heap_t* mem_heap_create_func( /*=================*/ ulint n, /*!< in: desired start block size, this means that a single user buffer of size n will fit in the block, 0 creates a default size block */ ulint type, /*!< in: heap type */ const char* file_name, /*!< in: file name where created */ ulint line); /*!< in: line where created */ /*****************************************************************//** NOTE: Use the corresponding macro instead of this function. Frees the space occupied by a memory heap. In the debug version erases the heap memory blocks. */ UNIV_INLINE void mem_heap_free_func( /*===============*/ mem_heap_t* heap, /*!< in, own: heap to be freed */ const char* file_name, /*!< in: file name where freed */ ulint line); /*!< in: line where freed */ /***************************************************************//** Allocates and zero-fills n bytes of memory from a memory heap. @return allocated, zero-filled storage */ UNIV_INLINE void* mem_heap_zalloc( /*============*/ mem_heap_t* heap, /*!< in: memory heap */ ulint n); /*!< in: number of bytes; if the heap is allowed to grow into the buffer pool, this must be <= MEM_MAX_ALLOC_IN_BUF */ /***************************************************************//** Allocates n bytes of memory from a memory heap. @return allocated storage, NULL if did not succeed (only possible for MEM_HEAP_BTR_SEARCH type heaps) */ UNIV_INLINE void* mem_heap_alloc( /*===========*/ mem_heap_t* heap, /*!< in: memory heap */ ulint n); /*!< in: number of bytes; if the heap is allowed to grow into the buffer pool, this must be <= MEM_MAX_ALLOC_IN_BUF */ /*****************************************************************//** Returns a pointer to the heap top. @return pointer to the heap top */ UNIV_INLINE byte* mem_heap_get_heap_top( /*==================*/ mem_heap_t* heap); /*!< in: memory heap */ /*****************************************************************//** Frees the space in a memory heap exceeding the pointer given. The pointer must have been acquired from mem_heap_get_heap_top. The first memory block of the heap is not freed. */ UNIV_INLINE void mem_heap_free_heap_top( /*===================*/ mem_heap_t* heap, /*!< in: heap from which to free */ byte* old_top);/*!< in: pointer to old top of heap */ /*****************************************************************//** Empties a memory heap. The first memory block of the heap is not freed. */ UNIV_INLINE void mem_heap_empty( /*===========*/ mem_heap_t* heap); /*!< in: heap to empty */ /*****************************************************************//** Returns a pointer to the topmost element in a memory heap. The size of the element must be given. @return pointer to the topmost element */ UNIV_INLINE void* mem_heap_get_top( /*=============*/ mem_heap_t* heap, /*!< in: memory heap */ ulint n); /*!< in: size of the topmost element */ /*****************************************************************//** Frees the topmost element in a memory heap. The size of the element must be given. */ UNIV_INLINE void mem_heap_free_top( /*==============*/ mem_heap_t* heap, /*!< in: memory heap */ ulint n); /*!< in: size of the topmost element */ /*****************************************************************//** Returns the space in bytes occupied by a memory heap. */ UNIV_INLINE ulint mem_heap_get_size( /*==============*/ mem_heap_t* heap); /*!< in: heap */ /**************************************************************//** Use this macro instead of the corresponding function! Macro for memory buffer allocation */ #define mem_zalloc(N) memset(mem_alloc(N), 0, (N)); #define mem_alloc(N) mem_alloc_func((N), NULL, __FILE__, __LINE__) #define mem_alloc2(N,S) mem_alloc_func((N), (S), __FILE__, __LINE__) /***************************************************************//** NOTE: Use the corresponding macro instead of this function. Allocates a single buffer of memory from the dynamic memory of the C compiler. Is like malloc of C. The buffer must be freed with mem_free. @return own: free storage */ UNIV_INLINE void* mem_alloc_func( /*===========*/ ulint n, /*!< in: requested size in bytes */ ulint* size, /*!< out: allocated size in bytes, or NULL */ const char* file_name, /*!< in: file name where created */ ulint line); /*!< in: line where created */ /**************************************************************//** Use this macro instead of the corresponding function! Macro for memory buffer freeing */ #define mem_free(PTR) mem_free_func((PTR), __FILE__, __LINE__) /***************************************************************//** NOTE: Use the corresponding macro instead of this function. Frees a single buffer of storage from the dynamic memory of C compiler. Similar to free of C. */ UNIV_INLINE void mem_free_func( /*==========*/ void* ptr, /*!< in, own: buffer to be freed */ const char* file_name, /*!< in: file name where created */ ulint line); /*!< in: line where created */ /**********************************************************************//** Duplicates a NUL-terminated string. @return own: a copy of the string, must be deallocated with mem_free */ UNIV_INLINE char* mem_strdup( /*=======*/ const char* str); /*!< in: string to be copied */ /**********************************************************************//** Makes a NUL-terminated copy of a nonterminated string. @return own: a copy of the string, must be deallocated with mem_free */ UNIV_INLINE char* mem_strdupl( /*========*/ const char* str, /*!< in: string to be copied */ ulint len); /*!< in: length of str, in bytes */ /**********************************************************************//** Duplicates a NUL-terminated string, allocated from a memory heap. @return own: a copy of the string */ UNIV_INTERN char* mem_heap_strdup( /*============*/ mem_heap_t* heap, /*!< in: memory heap where string is allocated */ const char* str); /*!< in: string to be copied */ /**********************************************************************//** Makes a NUL-terminated copy of a nonterminated string, allocated from a memory heap. @return own: a copy of the string */ UNIV_INLINE char* mem_heap_strdupl( /*=============*/ mem_heap_t* heap, /*!< in: memory heap where string is allocated */ const char* str, /*!< in: string to be copied */ ulint len); /*!< in: length of str, in bytes */ /**********************************************************************//** Concatenate two strings and return the result, using a memory heap. @return own: the result */ UNIV_INTERN char* mem_heap_strcat( /*============*/ mem_heap_t* heap, /*!< in: memory heap where string is allocated */ const char* s1, /*!< in: string 1 */ const char* s2); /*!< in: string 2 */ /**********************************************************************//** Duplicate a block of data, allocated from a memory heap. @return own: a copy of the data */ UNIV_INTERN void* mem_heap_dup( /*=========*/ mem_heap_t* heap, /*!< in: memory heap where copy is allocated */ const void* data, /*!< in: data to be copied */ ulint len); /*!< in: length of data, in bytes */ /****************************************************************//** A simple (s)printf replacement that dynamically allocates the space for the formatted string from the given heap. This supports a very limited set of the printf syntax: types 's' and 'u' and length modifier 'l' (which is required for the 'u' type). @return heap-allocated formatted string */ UNIV_INTERN char* mem_heap_printf( /*============*/ mem_heap_t* heap, /*!< in: memory heap */ const char* format, /*!< in: format string */ ...) __attribute__ ((format (printf, 2, 3))); #ifdef MEM_PERIODIC_CHECK /******************************************************************//** Goes through the list of all allocated mem blocks, checks their magic numbers, and reports possible corruption. */ UNIV_INTERN void mem_validate_all_blocks(void); /*=========================*/ #endif /*#######################################################################*/ /* The info header of a block in a memory heap */ struct mem_block_info_struct { ulint magic_n;/* magic number for debugging */ char file_name[8];/* file name where the mem heap was created */ ulint line; /*!< line number where the mem heap was created */ UT_LIST_BASE_NODE_T(mem_block_t) base; /* In the first block in the the list this is the base node of the list of blocks; in subsequent blocks this is undefined */ UT_LIST_NODE_T(mem_block_t) list; /* This contains pointers to next and prev in the list. The first block allocated to the heap is also the first block in this list, though it also contains the base node of the list. */ ulint len; /*!< physical length of this block in bytes */ ulint total_size; /*!< physical length in bytes of all blocks in the heap. This is defined only in the base node and is set to ULINT_UNDEFINED in others. */ ulint type; /*!< type of heap: MEM_HEAP_DYNAMIC, or MEM_HEAP_BUF possibly ORed to MEM_HEAP_BTR_SEARCH */ ulint free; /*!< offset in bytes of the first free position for user data in the block */ ulint start; /*!< the value of the struct field 'free' at the creation of the block */ #ifndef UNIV_HOTBACKUP void* free_block; /* if the MEM_HEAP_BTR_SEARCH bit is set in type, and this is the heap root, this can contain an allocated buffer frame, which can be appended as a free block to the heap, if we need more space; otherwise, this is NULL */ void* buf_block; /* if this block has been allocated from the buffer pool, this contains the buf_block_t handle; otherwise, this is NULL */ #endif /* !UNIV_HOTBACKUP */ #ifdef MEM_PERIODIC_CHECK UT_LIST_NODE_T(mem_block_t) mem_block_list; /* List of all mem blocks allocated; protected by the mem_comm_pool mutex */ #endif }; #define MEM_BLOCK_MAGIC_N 764741555 #define MEM_FREED_BLOCK_MAGIC_N 547711122 /* Header size for a memory heap block */ #define MEM_BLOCK_HEADER_SIZE ut_calc_align(sizeof(mem_block_info_t),\ UNIV_MEM_ALIGNMENT) #include "mem0dbg.h" #ifndef UNIV_NONINL #include "mem0mem.ic" #endif #endif