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|
/*****************************************************************************
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., 59 Temple
Place, Suite 330, Boston, MA 02111-1307 USA
*****************************************************************************/
/********************************************************************//**
@file mem/mem0dbg.c
The memory management: the debug code. This is not a compilation module,
but is included in mem0mem.* !
Created 6/9/1994 Heikki Tuuri
*************************************************************************/
#ifdef UNIV_MEM_DEBUG
# ifndef UNIV_HOTBACKUP
/* The mutex which protects in the debug version the hash table
containing the list of live memory heaps, and also the global
variables below. */
UNIV_INTERN mutex_t mem_hash_mutex;
#ifdef UNIV_PFS_MUTEX
/* Key to register mem_hash_mutex with performance schema */
UNIV_INTERN mysql_pfs_key_t mem_hash_mutex_key;
#endif /* UNIV_PFS_MUTEX */
# endif /* !UNIV_HOTBACKUP */
/* The following variables contain information about the
extent of memory allocations. Only used in the debug version.
Protected by mem_hash_mutex above. */
static ulint mem_n_created_heaps = 0;
static ulint mem_n_allocations = 0;
static ulint mem_total_allocated_memory = 0;
UNIV_INTERN ulint mem_current_allocated_memory = 0;
static ulint mem_max_allocated_memory = 0;
# ifndef UNIV_HOTBACKUP
static ulint mem_last_print_info = 0;
static ibool mem_hash_initialized = FALSE;
# endif /* !UNIV_HOTBACKUP */
/* Size of the hash table for memory management tracking */
#define MEM_HASH_SIZE 997
/* The node of the list containing currently allocated memory heaps */
typedef struct mem_hash_node_struct mem_hash_node_t;
struct mem_hash_node_struct {
UT_LIST_NODE_T(mem_hash_node_t)
list; /*!< hash list node */
mem_heap_t* heap; /*!< memory heap */
const char* file_name;/* file where heap was created*/
ulint line; /*!< file line of creation */
ulint nth_heap;/* this is the nth heap created */
UT_LIST_NODE_T(mem_hash_node_t)
all_list;/* list of all created heaps */
};
typedef UT_LIST_BASE_NODE_T(mem_hash_node_t) mem_hash_cell_t;
/* The hash table of allocated heaps */
static mem_hash_cell_t mem_hash_table[MEM_HASH_SIZE];
/* The base node of the list of all allocated heaps */
static mem_hash_cell_t mem_all_list_base;
UNIV_INLINE
mem_hash_cell_t*
mem_hash_get_nth_cell(ulint i);
/* Accessor function for the hash table. Returns a pointer to the
table cell. */
UNIV_INLINE
mem_hash_cell_t*
mem_hash_get_nth_cell(ulint i)
{
ut_a(i < MEM_HASH_SIZE);
return(&(mem_hash_table[i]));
}
/* Accessor functions for a memory field in the debug version */
UNIV_INTERN
void
mem_field_header_set_len(byte* field, ulint len)
{
mach_write_to_4(field - 2 * sizeof(ulint), len);
}
UNIV_INTERN
ulint
mem_field_header_get_len(byte* field)
{
return(mach_read_from_4(field - 2 * sizeof(ulint)));
}
UNIV_INTERN
void
mem_field_header_set_check(byte* field, ulint check)
{
mach_write_to_4(field - sizeof(ulint), check);
}
UNIV_INTERN
ulint
mem_field_header_get_check(byte* field)
{
return(mach_read_from_4(field - sizeof(ulint)));
}
UNIV_INTERN
void
mem_field_trailer_set_check(byte* field, ulint check)
{
mach_write_to_4(field + mem_field_header_get_len(field), check);
}
UNIV_INTERN
ulint
mem_field_trailer_get_check(byte* field)
{
return(mach_read_from_4(field
+ mem_field_header_get_len(field)));
}
#endif /* UNIV_MEM_DEBUG */
#ifndef UNIV_HOTBACKUP
/******************************************************************//**
Initializes the memory system. */
UNIV_INTERN
void
mem_init(
/*=====*/
ulint size) /*!< in: common pool size in bytes */
{
#ifdef UNIV_MEM_DEBUG
ulint i;
/* Initialize the hash table */
ut_a(FALSE == mem_hash_initialized);
mutex_create(mem_hash_mutex_key, &mem_hash_mutex, SYNC_MEM_HASH);
for (i = 0; i < MEM_HASH_SIZE; i++) {
UT_LIST_INIT(*mem_hash_get_nth_cell(i));
}
UT_LIST_INIT(mem_all_list_base);
mem_hash_initialized = TRUE;
#endif
if (UNIV_LIKELY(srv_use_sys_malloc)) {
/* When innodb_use_sys_malloc is set, the
mem_comm_pool won't be used for any allocations. We
create a dummy mem_comm_pool, because some statistics
and debugging code relies on it being initialized. */
size = 1;
}
mem_comm_pool = mem_pool_create(size);
}
/******************************************************************//**
Closes the memory system. */
UNIV_INTERN
void
mem_close(void)
/*===========*/
{
mem_pool_free(mem_comm_pool);
mem_comm_pool = NULL;
#ifdef UNIV_MEM_DEBUG
mutex_free(&mem_hash_mutex);
mem_hash_initialized = FALSE;
#endif /* UNIV_MEM_DEBUG */
}
#endif /* !UNIV_HOTBACKUP */
#ifdef UNIV_MEM_DEBUG
/******************************************************************//**
Initializes an allocated memory field in the debug version. */
UNIV_INTERN
void
mem_field_init(
/*===========*/
byte* buf, /*!< in: memory field */
ulint n) /*!< in: how many bytes the user requested */
{
ulint rnd;
byte* usr_buf;
usr_buf = buf + MEM_FIELD_HEADER_SIZE;
/* In the debug version write the length field and the
check fields to the start and the end of the allocated storage.
The field header consists of a length field and
a random number field, in this order. The field trailer contains
the same random number as a check field. */
mem_field_header_set_len(usr_buf, n);
rnd = ut_rnd_gen_ulint();
mem_field_header_set_check(usr_buf, rnd);
mem_field_trailer_set_check(usr_buf, rnd);
/* Update the memory allocation information */
mutex_enter(&mem_hash_mutex);
mem_total_allocated_memory += n;
mem_current_allocated_memory += n;
mem_n_allocations++;
if (mem_current_allocated_memory > mem_max_allocated_memory) {
mem_max_allocated_memory = mem_current_allocated_memory;
}
mutex_exit(&mem_hash_mutex);
/* In the debug version set the buffer to a random
combination of 0xBA and 0xBE */
mem_init_buf(usr_buf, n);
}
/******************************************************************//**
Erases an allocated memory field in the debug version. */
UNIV_INTERN
void
mem_field_erase(
/*============*/
byte* buf, /*!< in: memory field */
ulint n __attribute__((unused)))
/*!< in: how many bytes the user requested */
{
byte* usr_buf;
usr_buf = buf + MEM_FIELD_HEADER_SIZE;
mutex_enter(&mem_hash_mutex);
mem_current_allocated_memory -= n;
mutex_exit(&mem_hash_mutex);
/* Check that the field lengths agree */
ut_ad(n == (ulint)mem_field_header_get_len(usr_buf));
/* In the debug version, set the freed space to a random
combination of 0xDE and 0xAD */
mem_erase_buf(buf, MEM_SPACE_NEEDED(n));
}
/***************************************************************//**
Initializes a buffer to a random combination of hex BA and BE.
Used to initialize allocated memory. */
UNIV_INTERN
void
mem_init_buf(
/*=========*/
byte* buf, /*!< in: pointer to buffer */
ulint n) /*!< in: length of buffer */
{
byte* ptr;
UNIV_MEM_ASSERT_W(buf, n);
for (ptr = buf; ptr < buf + n; ptr++) {
if (ut_rnd_gen_ibool()) {
*ptr = 0xBA;
} else {
*ptr = 0xBE;
}
}
UNIV_MEM_INVALID(buf, n);
}
/***************************************************************//**
Initializes a buffer to a random combination of hex DE and AD.
Used to erase freed memory. */
UNIV_INTERN
void
mem_erase_buf(
/*==========*/
byte* buf, /*!< in: pointer to buffer */
ulint n) /*!< in: length of buffer */
{
byte* ptr;
UNIV_MEM_ASSERT_W(buf, n);
for (ptr = buf; ptr < buf + n; ptr++) {
if (ut_rnd_gen_ibool()) {
*ptr = 0xDE;
} else {
*ptr = 0xAD;
}
}
UNIV_MEM_FREE(buf, n);
}
/***************************************************************//**
Inserts a created memory heap to the hash table of current allocated
memory heaps. */
UNIV_INTERN
void
mem_hash_insert(
/*============*/
mem_heap_t* heap, /*!< in: the created heap */
const char* file_name, /*!< in: file name of creation */
ulint line) /*!< in: line where created */
{
mem_hash_node_t* new_node;
ulint cell_no ;
ut_ad(mem_heap_check(heap));
mutex_enter(&mem_hash_mutex);
cell_no = ut_hash_ulint((ulint)heap, MEM_HASH_SIZE);
/* Allocate a new node to the list */
new_node = ut_malloc(sizeof(mem_hash_node_t));
new_node->heap = heap;
new_node->file_name = file_name;
new_node->line = line;
new_node->nth_heap = mem_n_created_heaps;
/* Insert into lists */
UT_LIST_ADD_FIRST(list, *mem_hash_get_nth_cell(cell_no), new_node);
UT_LIST_ADD_LAST(all_list, mem_all_list_base, new_node);
mem_n_created_heaps++;
mutex_exit(&mem_hash_mutex);
}
/***************************************************************//**
Removes a memory heap (which is going to be freed by the caller)
from the list of live memory heaps. Returns the size of the heap
in terms of how much memory in bytes was allocated for the user of
the heap (not the total space occupied by the heap).
Also validates the heap.
NOTE: This function does not free the storage occupied by the
heap itself, only the node in the list of heaps. */
UNIV_INTERN
void
mem_hash_remove(
/*============*/
mem_heap_t* heap, /*!< in: the heap to be freed */
const char* file_name, /*!< in: file name of freeing */
ulint line) /*!< in: line where freed */
{
mem_hash_node_t* node;
ulint cell_no;
ibool error;
ulint size;
ut_ad(mem_heap_check(heap));
mutex_enter(&mem_hash_mutex);
cell_no = ut_hash_ulint((ulint)heap, MEM_HASH_SIZE);
/* Look for the heap in the hash table list */
node = UT_LIST_GET_FIRST(*mem_hash_get_nth_cell(cell_no));
while (node != NULL) {
if (node->heap == heap) {
break;
}
node = UT_LIST_GET_NEXT(list, node);
}
if (node == NULL) {
fprintf(stderr,
"Memory heap or buffer freed in %s line %lu"
" did not exist.\n",
file_name, (ulong) line);
ut_error;
}
/* Remove from lists */
UT_LIST_REMOVE(list, *mem_hash_get_nth_cell(cell_no), node);
UT_LIST_REMOVE(all_list, mem_all_list_base, node);
/* Validate the heap which will be freed */
mem_heap_validate_or_print(node->heap, NULL, FALSE, &error, &size,
NULL, NULL);
if (error) {
fprintf(stderr,
"Inconsistency in memory heap or"
" buffer n:o %lu created\n"
"in %s line %lu and tried to free in %s line %lu.\n"
"Hex dump of 400 bytes around memory heap"
" first block start:\n",
node->nth_heap, node->file_name, (ulong) node->line,
file_name, (ulong) line);
ut_print_buf(stderr, (byte*)node->heap - 200, 400);
fputs("\nDump of the mem heap:\n", stderr);
mem_heap_validate_or_print(node->heap, NULL, TRUE, &error,
&size, NULL, NULL);
ut_error;
}
/* Free the memory occupied by the node struct */
ut_free(node);
mem_current_allocated_memory -= size;
mutex_exit(&mem_hash_mutex);
}
#endif /* UNIV_MEM_DEBUG */
#if defined UNIV_MEM_DEBUG || defined UNIV_DEBUG
/***************************************************************//**
Checks a memory heap for consistency and prints the contents if requested.
Outputs the sum of sizes of buffers given to the user (only in
the debug version), the physical size of the heap and the number of
blocks in the heap. In case of error returns 0 as sizes and number
of blocks. */
UNIV_INTERN
void
mem_heap_validate_or_print(
/*=======================*/
mem_heap_t* heap, /*!< in: memory heap */
byte* top __attribute__((unused)),
/*!< in: calculate and validate only until
this top pointer in the heap is reached,
if this pointer is NULL, ignored */
ibool print, /*!< in: if TRUE, prints the contents
of the heap; works only in
the debug version */
ibool* error, /*!< out: TRUE if error */
ulint* us_size,/*!< out: allocated memory
(for the user) in the heap,
if a NULL pointer is passed as this
argument, it is ignored; in the
non-debug version this is always -1 */
ulint* ph_size,/*!< out: physical size of the heap,
if a NULL pointer is passed as this
argument, it is ignored */
ulint* n_blocks) /*!< out: number of blocks in the heap,
if a NULL pointer is passed as this
argument, it is ignored */
{
mem_block_t* block;
ulint total_len = 0;
ulint block_count = 0;
ulint phys_len = 0;
#ifdef UNIV_MEM_DEBUG
ulint len;
byte* field;
byte* user_field;
ulint check_field;
#endif
/* Pessimistically, we set the parameters to error values */
if (us_size != NULL) {
*us_size = 0;
}
if (ph_size != NULL) {
*ph_size = 0;
}
if (n_blocks != NULL) {
*n_blocks = 0;
}
*error = TRUE;
block = heap;
if (block->magic_n != MEM_BLOCK_MAGIC_N) {
return;
}
if (print) {
fputs("Memory heap:", stderr);
}
while (block != NULL) {
phys_len += mem_block_get_len(block);
if ((block->type == MEM_HEAP_BUFFER)
&& (mem_block_get_len(block) > UNIV_PAGE_SIZE)) {
fprintf(stderr,
"InnoDB: Error: mem block %p"
" length %lu > UNIV_PAGE_SIZE\n",
(void*) block,
(ulong) mem_block_get_len(block));
/* error */
return;
}
#ifdef UNIV_MEM_DEBUG
/* We can trace the fields of the block only in the debug
version */
if (print) {
fprintf(stderr, " Block %ld:", block_count);
}
field = (byte*)block + mem_block_get_start(block);
if (top && (field == top)) {
goto completed;
}
while (field < (byte*)block + mem_block_get_free(block)) {
/* Calculate the pointer to the storage
which was given to the user */
user_field = field + MEM_FIELD_HEADER_SIZE;
len = mem_field_header_get_len(user_field);
if (print) {
ut_print_buf(stderr, user_field, len);
putc('\n', stderr);
}
total_len += len;
check_field = mem_field_header_get_check(user_field);
if (check_field
!= mem_field_trailer_get_check(user_field)) {
/* error */
fprintf(stderr,
"InnoDB: Error: block %lx mem"
" field %lx len %lu\n"
"InnoDB: header check field is"
" %lx but trailer %lx\n",
(ulint)block,
(ulint)field, len, check_field,
mem_field_trailer_get_check(
user_field));
return;
}
/* Move to next field */
field = field + MEM_SPACE_NEEDED(len);
if (top && (field == top)) {
goto completed;
}
}
/* At the end check that we have arrived to the first free
position */
if (field != (byte*)block + mem_block_get_free(block)) {
/* error */
fprintf(stderr,
"InnoDB: Error: block %lx end of"
" mem fields %lx\n"
"InnoDB: but block free at %lx\n",
(ulint)block, (ulint)field,
(ulint)((byte*)block
+ mem_block_get_free(block)));
return;
}
#endif
block = UT_LIST_GET_NEXT(list, block);
block_count++;
}
#ifdef UNIV_MEM_DEBUG
completed:
#endif
if (us_size != NULL) {
*us_size = total_len;
}
if (ph_size != NULL) {
*ph_size = phys_len;
}
if (n_blocks != NULL) {
*n_blocks = block_count;
}
*error = FALSE;
}
/**************************************************************//**
Prints the contents of a memory heap. */
static
void
mem_heap_print(
/*===========*/
mem_heap_t* heap) /*!< in: memory heap */
{
ibool error;
ulint us_size;
ulint phys_size;
ulint n_blocks;
ut_ad(mem_heap_check(heap));
mem_heap_validate_or_print(heap, NULL, TRUE, &error,
&us_size, &phys_size, &n_blocks);
fprintf(stderr,
"\nheap type: %lu; size: user size %lu;"
" physical size %lu; blocks %lu.\n",
(ulong) heap->type, (ulong) us_size,
(ulong) phys_size, (ulong) n_blocks);
ut_a(!error);
}
/**************************************************************//**
Validates the contents of a memory heap.
@return TRUE if ok */
UNIV_INTERN
ibool
mem_heap_validate(
/*==============*/
mem_heap_t* heap) /*!< in: memory heap */
{
ibool error;
ulint us_size;
ulint phys_size;
ulint n_blocks;
ut_ad(mem_heap_check(heap));
mem_heap_validate_or_print(heap, NULL, FALSE, &error, &us_size,
&phys_size, &n_blocks);
if (error) {
mem_heap_print(heap);
}
ut_a(!error);
return(TRUE);
}
#endif /* UNIV_MEM_DEBUG || UNIV_DEBUG */
#ifdef UNIV_DEBUG
/**************************************************************//**
Checks that an object is a memory heap (or a block of it).
@return TRUE if ok */
UNIV_INTERN
ibool
mem_heap_check(
/*===========*/
mem_heap_t* heap) /*!< in: memory heap */
{
ut_a(heap->magic_n == MEM_BLOCK_MAGIC_N);
return(TRUE);
}
#endif /* UNIV_DEBUG */
#ifdef UNIV_MEM_DEBUG
/*****************************************************************//**
TRUE if no memory is currently allocated.
@return TRUE if no heaps exist */
UNIV_INTERN
ibool
mem_all_freed(void)
/*===============*/
{
mem_hash_node_t* node;
ulint heap_count = 0;
ulint i;
mem_validate();
mutex_enter(&mem_hash_mutex);
for (i = 0; i < MEM_HASH_SIZE; i++) {
node = UT_LIST_GET_FIRST(*mem_hash_get_nth_cell(i));
while (node != NULL) {
heap_count++;
node = UT_LIST_GET_NEXT(list, node);
}
}
mutex_exit(&mem_hash_mutex);
if (heap_count == 0) {
# ifndef UNIV_HOTBACKUP
ut_a(mem_pool_get_reserved(mem_comm_pool) == 0);
# endif /* !UNIV_HOTBACKUP */
return(TRUE);
} else {
return(FALSE);
}
}
/*****************************************************************//**
Validates the dynamic memory allocation system.
@return TRUE if error */
UNIV_INTERN
ibool
mem_validate_no_assert(void)
/*========================*/
{
mem_hash_node_t* node;
ulint n_heaps = 0;
ulint allocated_mem;
ulint ph_size;
ulint total_allocated_mem = 0;
ibool error = FALSE;
ulint n_blocks;
ulint i;
# ifndef UNIV_HOTBACKUP
mem_pool_validate(mem_comm_pool);
# endif /* !UNIV_HOTBACKUP */
mutex_enter(&mem_hash_mutex);
for (i = 0; i < MEM_HASH_SIZE; i++) {
node = UT_LIST_GET_FIRST(*mem_hash_get_nth_cell(i));
while (node != NULL) {
n_heaps++;
mem_heap_validate_or_print(node->heap, NULL,
FALSE, &error,
&allocated_mem,
&ph_size, &n_blocks);
if (error) {
fprintf(stderr,
"\nERROR!!!!!!!!!!!!!!!!!!!"
"!!!!!!!!!!!!!!!!!!!!!!!\n\n"
"Inconsistency in memory heap"
" or buffer created\n"
"in %s line %lu.\n",
node->file_name, node->line);
mutex_exit(&mem_hash_mutex);
return(TRUE);
}
total_allocated_mem += allocated_mem;
node = UT_LIST_GET_NEXT(list, node);
}
}
if ((n_heaps == 0) && (mem_current_allocated_memory != 0)) {
error = TRUE;
}
if (mem_total_allocated_memory < mem_current_allocated_memory) {
error = TRUE;
}
if (mem_max_allocated_memory > mem_total_allocated_memory) {
error = TRUE;
}
if (mem_n_created_heaps < n_heaps) {
error = TRUE;
}
mutex_exit(&mem_hash_mutex);
return(error);
}
/************************************************************//**
Validates the dynamic memory
@return TRUE if ok */
UNIV_INTERN
ibool
mem_validate(void)
/*==============*/
{
ut_a(!mem_validate_no_assert());
return(TRUE);
}
#endif /* UNIV_MEM_DEBUG */
/************************************************************//**
Tries to find neigboring memory allocation blocks and dumps to stderr
the neighborhood of a given pointer. */
UNIV_INTERN
void
mem_analyze_corruption(
/*===================*/
void* ptr) /*!< in: pointer to place of possible corruption */
{
byte* p;
ulint i;
ulint dist;
fputs("InnoDB: Apparent memory corruption: mem dump ", stderr);
ut_print_buf(stderr, (byte*)ptr - 250, 500);
fputs("\nInnoDB: Scanning backward trying to find"
" previous allocated mem blocks\n", stderr);
p = (byte*)ptr;
dist = 0;
for (i = 0; i < 10; i++) {
for (;;) {
if (((ulint)p) % 4 == 0) {
if (*((ulint*)p) == MEM_BLOCK_MAGIC_N) {
fprintf(stderr,
"Mem block at - %lu,"
" file %s, line %lu\n",
(ulong) dist,
(p + sizeof(ulint)),
(ulong)
(*(ulint*)(p + 8
+ sizeof(ulint))));
break;
}
if (*((ulint*)p) == MEM_FREED_BLOCK_MAGIC_N) {
fprintf(stderr,
"Freed mem block at - %lu,"
" file %s, line %lu\n",
(ulong) dist,
(p + sizeof(ulint)),
(ulong)
(*(ulint*)(p + 8
+ sizeof(ulint))));
break;
}
}
p--;
dist++;
}
p--;
dist++;
}
fprintf(stderr,
"InnoDB: Scanning forward trying to find next"
" allocated mem blocks\n");
p = (byte*)ptr;
dist = 0;
for (i = 0; i < 10; i++) {
for (;;) {
if (((ulint)p) % 4 == 0) {
if (*((ulint*)p) == MEM_BLOCK_MAGIC_N) {
fprintf(stderr,
"Mem block at + %lu, file %s,"
" line %lu\n",
(ulong) dist,
(p + sizeof(ulint)),
(ulong)
(*(ulint*)(p + 8
+ sizeof(ulint))));
break;
}
if (*((ulint*)p) == MEM_FREED_BLOCK_MAGIC_N) {
fprintf(stderr,
"Freed mem block at + %lu,"
" file %s, line %lu\n",
(ulong) dist,
(p + sizeof(ulint)),
(ulong)
(*(ulint*)(p + 8
+ sizeof(ulint))));
break;
}
}
p++;
dist++;
}
p++;
dist++;
}
}
#ifndef UNIV_HOTBACKUP
/*****************************************************************//**
Prints information of dynamic memory usage and currently allocated
memory heaps or buffers. Can only be used in the debug version. */
static
void
mem_print_info_low(
/*===============*/
ibool print_all) /*!< in: if TRUE, all heaps are printed,
else only the heaps allocated after the
previous call of this function */
{
#ifdef UNIV_MEM_DEBUG
mem_hash_node_t* node;
ulint n_heaps = 0;
ulint allocated_mem;
ulint ph_size;
ulint total_allocated_mem = 0;
ibool error;
ulint n_blocks;
#endif
FILE* outfile;
/* outfile = fopen("ibdebug", "a"); */
outfile = stdout;
fprintf(outfile, "\n");
fprintf(outfile,
"________________________________________________________\n");
fprintf(outfile, "MEMORY ALLOCATION INFORMATION\n\n");
#ifndef UNIV_MEM_DEBUG
UT_NOT_USED(print_all);
mem_pool_print_info(outfile, mem_comm_pool);
fprintf(outfile,
"Sorry, non-debug version cannot give more memory info\n");
/* fclose(outfile); */
return;
#else
mutex_enter(&mem_hash_mutex);
fprintf(outfile, "LIST OF CREATED HEAPS AND ALLOCATED BUFFERS: \n\n");
if (!print_all) {
fprintf(outfile, "AFTER THE LAST PRINT INFO\n");
}
node = UT_LIST_GET_FIRST(mem_all_list_base);
while (node != NULL) {
n_heaps++;
if (!print_all && node->nth_heap < mem_last_print_info) {
goto next_heap;
}
mem_heap_validate_or_print(node->heap, NULL,
FALSE, &error, &allocated_mem,
&ph_size, &n_blocks);
total_allocated_mem += allocated_mem;
fprintf(outfile,
"%lu: file %s line %lu of size %lu phys.size %lu"
" with %lu blocks, type %lu\n",
node->nth_heap, node->file_name, node->line,
allocated_mem, ph_size, n_blocks,
(node->heap)->type);
next_heap:
node = UT_LIST_GET_NEXT(all_list, node);
}
fprintf(outfile, "\n");
fprintf(outfile, "Current allocated memory : %lu\n",
mem_current_allocated_memory);
fprintf(outfile, "Current allocated heaps and buffers : %lu\n",
n_heaps);
fprintf(outfile, "Cumulative allocated memory : %lu\n",
mem_total_allocated_memory);
fprintf(outfile, "Maximum allocated memory : %lu\n",
mem_max_allocated_memory);
fprintf(outfile, "Cumulative created heaps and buffers : %lu\n",
mem_n_created_heaps);
fprintf(outfile, "Cumulative number of allocations : %lu\n",
mem_n_allocations);
mem_last_print_info = mem_n_created_heaps;
mutex_exit(&mem_hash_mutex);
mem_pool_print_info(outfile, mem_comm_pool);
/* mem_validate(); */
/* fclose(outfile); */
#endif
}
/*****************************************************************//**
Prints information of dynamic memory usage and currently allocated memory
heaps or buffers. Can only be used in the debug version. */
UNIV_INTERN
void
mem_print_info(void)
/*================*/
{
mem_print_info_low(TRUE);
}
/*****************************************************************//**
Prints information of dynamic memory usage and currently allocated memory
heaps or buffers since the last ..._print_info or..._print_new_info. */
UNIV_INTERN
void
mem_print_new_info(void)
/*====================*/
{
mem_print_info_low(FALSE);
}
#endif /* !UNIV_HOTBACKUP */
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