/*****************************************************************************\
* Copyright (c) Athena Dev Teams - Licensed under GNU GPL *
* For more information, see LICENCE in the main folder *
* *
* <H1>Entry Reusage System</H1> *
* *
* There are several root entry managers, each with a different entry size. *
* Each manager will keep track of how many instances have been 'created'. *
* They will only automatically destroy themselves after the last instance *
* is destroyed. *
* *
* Entries can be allocated from the managers. *
* If it has reusable entries (freed entry), it uses one. *
* So no assumption should be made about the data of the entry. *
* Entries should be freed in the manager they where allocated from. *
* Failure to do so can lead to unexpected behaviours. *
* *
* <H2>Advantages:</H2> *
* - The same manager is used for entries of the same size. *
* So entries freed in one instance of the manager can be used by other *
* instances of the manager. *
* - Much less memory allocation/deallocation - program will be faster. *
* - Avoids memory fragmentaion - program will run better for longer. *
* *
* <H2>Disavantages:</H2> *
* - Unused entries are almost inevitable - memory being wasted. *
* - A manager will only auto-destroy when all of its instances are *
* destroyed so memory will usually only be recovered near the end. *
* - Always wastes space for entries smaller than a pointer. *
* *
* WARNING: The system is not thread-safe at the moment. *
* *
* HISTORY: *
* 0.1 - Initial version *
* *
* @version 0.1 - Initial version *
* @author Flavio @ Amazon Project *
* @encoding US-ASCII *
* @see common#ers.h *
\*****************************************************************************/
#include <stdlib.h>
#include "../common/cbasetypes.h"
#include "../common/malloc.h" // CREATE, RECREATE, aMalloc, aFree
#include "../common/showmsg.h" // ShowMessage, ShowError, ShowFatalError, CL_BOLD, CL_NORMAL
#include "ers.h"
#ifndef DISABLE_ERS
/*****************************************************************************\
* (1) Private defines, structures and global variables. *
* ERS_BLOCK_ENTRIES - Number of entries in each block. *
* ERS_ROOT_SIZE - Maximum number of root entry managers. *
* ERLinkedList - Structure of a linked list of reusable entries. *
* ERS_impl - Class of an entry manager. *
* ers_root - Array of root entry managers. *
* ers_num - Number of root entry managers in the array. *
\*****************************************************************************/
/**
* Number of entries in each block.
* @see #ers_obj_alloc_entry(ERS eri)
*/
#define ERS_BLOCK_ENTRIES 4096
/**
* Maximum number of root entry managers.
* @private
* @see #ers_root
* @see #ers_num
*/
#define ERS_ROOT_SIZE 256
/**
* Linked list of reusable entries.
* The minimum size of the entries is the size of this structure.
* @private
* @see ERS_impl#reuse
*/
typedef struct ers_ll {
struct ers_ll *next;
} *ERLinkedList;
/**
* Class of the object that manages entries of a certain size.
* @param eri Public interface of the object
* @param reuse Linked list of reusable data entries
* @param blocks Array with blocks of entries
* @param free Number of unused entries in the last block
* @param num Number of blocks in the array
* @param max Current maximum capacity of the array
* @param destroy Destroy lock
* @param size Size of the entries of the manager
* @private
*/
typedef struct ers_impl {
/**
* Public interface of the entry manager.
* @param alloc Allocate an entry from this manager
* @param free Free an entry allocated from this manager
* @param entry_size Return the size of the entries of this manager
* @param destroy Destroy this instance of the manager
* @public
*/
struct eri vtable;
/**
* Linked list of reusable entries.
*/
ERLinkedList reuse;
/**
* Array with blocks of entries.
*/
uint8 **blocks;
/**
* Number of unused entries in the last block.
*/
uint32 free;
/**
* Number of blocks in the array.
*/
uint32 num;
/**
* Current maximum capacity of the array.
*/
uint32 max;
/**
* Destroy lock.
*/
uint32 destroy;
/**
* Size of the entries of the manager.
*/
size_t size;
} *ERS_impl;
/**
* Root array with entry managers.
* @private
* @static
* @see #ERS_ROOT_SIZE
* @see #ers_num
*/
static ERS_impl ers_root[ERS_ROOT_SIZE];
/**
* Number of entry managers in the root array.
* @private
* @static
* @see #ERS_ROOT_SIZE
* @see #ers_root
*/
static uint32 ers_num = 0;
/*****************************************************************************\
* (2) Object functions. *
* ers_obj_alloc_entry - Allocate an entry from the manager. *
* ers_obj_free_entry - Free an entry allocated from the manager. *
* ers_obj_entry_size - Return the size of the entries of the manager. *
* ers_obj_destroy - Destroy the instance of the manager. *
\*****************************************************************************/
/**
* Allocate an entry from this entry manager.
* If there are reusable entries available, it reuses one instead.
* @param self Interface of the entry manager
* @return An entry
* @see #ERS_BLOCK_ENTRIES
* @see #ERLinkedList
* @see ERS_impl::vtable#alloc
*/
static void *ers_obj_alloc_entry(ERS self)
{
ERS_impl obj = (ERS_impl)self;
void *ret;
if (obj == NULL) {
ShowError("ers::alloc : NULL object, aborting entry allocation.\n");
return NULL;
}
if (obj->reuse) { // Reusable entry
ret = obj->reuse;
obj->reuse = obj->reuse->next;
} else if (obj->free) { // Unused entry
obj->free--;
ret = &obj->blocks[obj->num -1][obj->free*obj->size];
} else { // allocate a new block
if (obj->num == obj->max) { // expand the block array
if (obj->max == UINT32_MAX) { // No more space for blocks
ShowFatalError("ers::alloc : maximum number of blocks reached, increase ERS_BLOCK_ENTRIES.\n"
"exiting the program...\n");
exit(EXIT_FAILURE);
}
obj->max = (obj->max*4)+3; // left shift bits '11' - overflow won't happen
RECREATE(obj->blocks, uint8 *, obj->max);
}
CREATE(obj->blocks[obj->num], uint8, obj->size*ERS_BLOCK_ENTRIES);
obj->free = ERS_BLOCK_ENTRIES -1;
ret = &obj->blocks[obj->num][obj->free*obj->size];
obj->num++;
}
return ret;
}
/**
* Free an entry allocated from this manager.
* WARNING: Does not check if the entry was allocated by this manager.
* Freeing such an entry can lead to unexpected behaviour.
* @param self Interface of the entry manager
* @param entry Entry to be freed
* @see #ERLinkedList
* @see ERS_impl#reuse
* @see ERS_impl::vtable#free
*/
static void ers_obj_free_entry(ERS self, void *entry)
{
ERS_impl obj = (ERS_impl)self;
ERLinkedList reuse;
if (obj == NULL) {
ShowError("ers::free : NULL object, aborting entry freeing.\n");
return;
} else if (entry == NULL) {
ShowError("ers::free : NULL entry, nothing to free.\n");
return;
}
reuse = (ERLinkedList)entry;
reuse->next = obj->reuse;
obj->reuse = reuse;
}
/**
* Return the size of the entries allocated from this manager.
* @param self Interface of the entry manager
* @return Size of the entries of this manager in bytes
* @see ERS_impl#size
* @see ERS_impl::vtable#entry_size
*/
static size_t ers_obj_entry_size(ERS self)
{
ERS_impl obj = (ERS_impl)self;
if (obj == NULL) {
ShowError("ers::entry_size : NULL object, returning 0.\n");
return 0;
}
return obj->size;
}
/**
* Destroy this instance of the manager.
* The manager is actually only destroyed when all the instances are destroyed.
* When destroying the manager a warning is shown if the manager has
* missing/extra entries.
* @param self Interface of the entry manager
* @see #ERLinkedList
* @see ERS_impl::vtable#destroy
*/
static void ers_obj_destroy(ERS self)
{
ERS_impl obj = (ERS_impl)self;
ERLinkedList reuse,old;
uint32 i;
uint32 count;
if (obj == NULL) {
ShowError("ers::destroy: NULL object, aborting instance destruction.\n");
return;
}
obj->destroy--;
if (obj->destroy)
return; // Not last instance
// Remove manager from root array
for (i = 0; i < ers_num; i++) {
if (ers_root[i] == obj) {
ers_num--;
if (i < ers_num) // put the last manager in the free slot
ers_root[i] = ers_root[ers_num];
break;
}
}
reuse = obj->reuse;
count = 0;
// Check for missing/extra entries
for (i = 0; i < obj->num; i++) {
if (i == 0) {
count = ERS_BLOCK_ENTRIES -obj->free;
} else if (count > UINT32_MAX -ERS_BLOCK_ENTRIES) {
count = UINT32_MAX;
break;
} else {
count += ERS_BLOCK_ENTRIES;
}
while (reuse && count) {
count--;
old = reuse;
reuse = reuse->next;
old->next = NULL; // this makes duplicate frees report as missing entries
}
}
if (count) { // missing entries
ShowWarning("ers::destroy : %u entries missing (possible double free), continuing destruction (entry size=%u).",
count, obj->size);
} else if (reuse) { // extra entries
while (reuse && count != UINT32_MAX) {
count++;
reuse = reuse->next;
}
ShowWarning("ers::destroy : %u extra entries found, continuing destruction (entry size=%u).",
count, obj->size);
}
// destroy the entry manager
if (obj->max) {
for (i = 0; i < obj->num; i++)
aFree(obj->blocks[i]); // release block of entries
aFree(obj->blocks); // release array of blocks
}
aFree(obj); // release manager
}
/*****************************************************************************\
* (3) Public functions. *
* ers_new - Get a new instance of an entry manager. *
* ers_report - Print a report about the current state. *
* ers_force_destroy_all - Force the destruction of all the managers. *
\*****************************************************************************/
/**
* Get a new instance of the manager that handles the specified entry size.
* Size has to greater than 0.
* If the specified size is smaller than a pointer, the size of a pointer is
* used instead.
* It's also aligned to ERS_ALIGNED bytes, so the smallest multiple of
* ERS_ALIGNED that is greater or equal to size is what's actually used.
* @param The requested size of the entry in bytes
* @return Interface of the object
* @see #ERS_impl
* @see #ers_root
* @see #ers_num
*/
ERS ers_new(uint32 size)
{
ERS_impl obj;
uint32 i;
if (size == 0) {
ShowError("ers_new: invalid size %u, aborting instance creation.\n",
size);
return NULL;
}
if (size < sizeof(struct ers_ll)) // Minimum size
size = sizeof(struct ers_ll);
if (size%ERS_ALIGNED) // Align size
size += ERS_ALIGNED -size%ERS_ALIGNED;
for (i = 0; i < ers_num; i++) {
obj = ers_root[i];
if (obj->size == size) {
// found a manager that handles the entry size
obj->destroy++;
return &obj->vtable;
}
}
// create a new manager to handle the entry size
if (ers_num == ERS_ROOT_SIZE) {
ShowFatalError("ers_alloc: too many root objects, increase ERS_ROOT_SIZE.\n"
"exiting the program...\n");
exit(EXIT_FAILURE);
}
obj = (ERS_impl)aMalloc(sizeof(struct ers_impl));
// Public interface
obj->vtable.alloc = ers_obj_alloc_entry;
obj->vtable.free = ers_obj_free_entry;
obj->vtable.entry_size = ers_obj_entry_size;
obj->vtable.destroy = ers_obj_destroy;
// Block reusage system
obj->reuse = NULL;
obj->blocks = NULL;
obj->free = 0;
obj->num = 0;
obj->max = 0;
obj->destroy = 1;
// Properties
obj->size = size;
ers_root[ers_num++] = obj;
return &obj->vtable;
}
/**
* Print a report about the current state of the Entry Reusage System.
* Shows information about the global system and each entry manager.
* The number of entries are checked and a warning is shown if extra reusable
* entries are found.
* The extra entries are included in the count of reusable entries.
* @see #ERLinkedList
* @see #ERS_impl
* @see #ers_root
* @see #ers_num
*/
void ers_report(void)
{
uint32 i;
uint32 j;
uint32 used;
uint32 reusable;
uint32 extra;
ERLinkedList reuse;
ERS_impl obj;
// Root system report
ShowMessage(CL_BOLD"Entry Reusage System report:\n"CL_NORMAL);
ShowMessage("root array size : %u\n", ERS_ROOT_SIZE);
ShowMessage("root entry managers : %u\n", ers_num);
ShowMessage("entries per block : %u\n", ERS_BLOCK_ENTRIES);
for (i = 0; i < ers_num; i++) {
obj = ers_root[i];
reuse = obj->reuse;
used = 0;
reusable = 0;
// Count used and reusable entries
for (j = 0; j < obj->num; j++) {
if (j == 0) { // take into acount the free entries
used = ERS_BLOCK_ENTRIES -obj->free;
} else if (reuse) { // counting reusable entries
used = ERS_BLOCK_ENTRIES;
} else { // no more reusable entries, count remaining used entries
for (; j < obj->num; j++) {
if (used > UINT32_MAX -ERS_BLOCK_ENTRIES) { // overflow
used = UINT32_MAX;
break;
}
used += ERS_BLOCK_ENTRIES;
}
break;
}
while (used && reuse) { // count reusable entries
used--;
if (reusable != UINT32_MAX)
reusable++;
reuse = reuse->next;
}
}
// Count extra reusable entries
extra = 0;
while (reuse && extra != UINT32_MAX) {
extra++;
reuse = reuse->next;
}
// Entry manager report
ShowMessage(CL_BOLD"[Entry manager #%u report]\n"CL_NORMAL, i);
ShowMessage("\tinstances : %u\n", obj->destroy);
ShowMessage("\tentry size : %u\n", obj->size);
ShowMessage("\tblock array size : %u\n", obj->max);
ShowMessage("\tallocated blocks : %u\n", obj->num);
ShowMessage("\tentries being used : %u\n", used);
ShowMessage("\tunused entries : %u\n", obj->free);
ShowMessage("\treusable entries : %u\n", reusable);
if (extra)
ShowMessage("\tWARNING - %u extra reusable entries were found.\n", extra);
}
ShowMessage("End of report\n");
}
/**
* Forcibly destroy all the entry managers, checking for nothing.
* The system is left as if no instances or entries had ever been allocated.
* All previous entries and instances of the managers become invalid.
* The use of this is NOT recommended.
* It should only be used in extreme situations to make shure all the memory
* allocated by this system is released.
* @see #ERS_impl
* @see #ers_root
* @see #ers_num
*/
void ers_force_destroy_all(void)
{
uint32 i;
uint32 j;
ERS_impl obj;
for (i = 0; i < ers_num; i++) {
obj = ers_root[i];
if (obj->max) {
for (j = 0; j < obj->num; j++)
aFree(obj->blocks[j]); // block of entries
aFree(obj->blocks); // array of blocks
}
aFree(obj); // entry manager object
}
ers_num = 0;
}
#endif /* not DISABLE_ERS */