// Copyright (c) Hercules Dev Team, licensed under GNU GPL.
// See the LICENSE file
// Portions Copyright (c) Athena Dev Teams
/*****************************************************************************\
* <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 behaviors. *
* *
* <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 fragmentation - program will run better for longer. *
* *
* <H2>Disadvantages:</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 *
* 1.0 - ERS Rework *
* *
* @version 1.0 - ERS Rework *
* @author GreenBox @ rAthena Project *
* @encoding US-ASCII *
* @see common#ers.h *
\*****************************************************************************/
#define HERCULES_CORE
#include "ers.h"
#include "common/cbasetypes.h"
#include "common/memmgr.h" // CREATE, RECREATE, aMalloc, aFree
#include "common/nullpo.h"
#include "common/showmsg.h" // ShowMessage, ShowError, ShowFatalError, CL_BOLD, CL_NORMAL
#include <stdlib.h>
#include <string.h>
#ifndef DISABLE_ERS
#define ERS_BLOCK_ENTRIES 2048
struct ers_list
{
struct ers_list *Next;
};
struct ers_instance_t;
typedef struct ers_cache
{
// Allocated object size, including ers_list size
unsigned int ObjectSize;
// Number of ers_instances referencing this
int ReferenceCount;
// Reuse linked list
struct ers_list *ReuseList;
// Memory blocks array
unsigned char **Blocks;
// Max number of blocks
unsigned int Max;
// Free objects count
unsigned int Free;
// Used blocks count
unsigned int Used;
// Objects in-use count
unsigned int UsedObjs;
// Default = ERS_BLOCK_ENTRIES, can be adjusted for performance for individual cache sizes.
unsigned int ChunkSize;
// Misc options, some options are shared from the instance
enum ERSOptions Options;
// Linked list
struct ers_cache *Next, *Prev;
} ers_cache_t;
struct ers_instance_t {
// Interface to ERS
struct eri VTable;
// Name, used for debugging purposes
char *Name;
// Misc options
enum ERSOptions Options;
// Our cache
ers_cache_t *Cache;
// Count of objects in use, used for detecting memory leaks
unsigned int Count;
#ifdef DEBUG
/* for data analysis [Ind/Hercules] */
unsigned int Peak;
#endif
struct ers_instance_t *Next, *Prev;
};
// Array containing a pointer for all ers_cache structures
static ers_cache_t *CacheList = NULL;
static struct ers_instance_t *InstanceList = NULL;
/**
* @param Options the options from the instance seeking a cache, we use it to give it a cache with matching configuration
**/
static ers_cache_t *ers_find_cache(unsigned int size, enum ERSOptions Options) {
ers_cache_t *cache;
for (cache = CacheList; cache; cache = cache->Next)
if ( cache->ObjectSize == size && cache->Options == ( Options & ERS_CACHE_OPTIONS ) )
return cache;
CREATE(cache, ers_cache_t, 1);
cache->ObjectSize = size;
cache->ReferenceCount = 0;
cache->ReuseList = NULL;
cache->Blocks = NULL;
cache->Free = 0;
cache->Used = 0;
cache->UsedObjs = 0;
cache->Max = 0;
cache->ChunkSize = ERS_BLOCK_ENTRIES;
cache->Options = (Options & ERS_CACHE_OPTIONS);
if (CacheList == NULL)
{
CacheList = cache;
}
else
{
cache->Next = CacheList;
cache->Next->Prev = cache;
CacheList = cache;
CacheList->Prev = NULL;
}
return cache;
}
static void ers_free_cache(ers_cache_t *cache, bool remove)
{
unsigned int i;
for (i = 0; i < cache->Used; i++)
aFree(cache->Blocks[i]);
if (cache->Next)
cache->Next->Prev = cache->Prev;
if (cache->Prev)
cache->Prev->Next = cache->Next;
else
CacheList = cache->Next;
aFree(cache->Blocks);
aFree(cache);
}
static void *ers_obj_alloc_entry(ERS *self)
{
struct ers_instance_t *instance = (struct ers_instance_t *)self;
void *ret;
if (instance == NULL) {
ShowError("ers_obj_alloc_entry: NULL object, aborting entry freeing.\n");
return NULL;
}
if (instance->Cache->ReuseList != NULL) {
ret = (void *)((unsigned char *)instance->Cache->ReuseList + sizeof(struct ers_list));
instance->Cache->ReuseList = instance->Cache->ReuseList->Next;
} else if (instance->Cache->Free > 0) {
instance->Cache->Free--;
ret = &instance->Cache->Blocks[instance->Cache->Used - 1][instance->Cache->Free * instance->Cache->ObjectSize + sizeof(struct ers_list)];
} else {
if (instance->Cache->Used == instance->Cache->Max) {
instance->Cache->Max = (instance->Cache->Max * 4) + 3;
RECREATE(instance->Cache->Blocks, unsigned char *, instance->Cache->Max);
}
CREATE(instance->Cache->Blocks[instance->Cache->Used], unsigned char, instance->Cache->ObjectSize * instance->Cache->ChunkSize);
instance->Cache->Used++;
instance->Cache->Free = instance->Cache->ChunkSize -1;
ret = &instance->Cache->Blocks[instance->Cache->Used - 1][instance->Cache->Free * instance->Cache->ObjectSize + sizeof(struct ers_list)];
}
instance->Count++;
instance->Cache->UsedObjs++;
#ifdef DEBUG
if( instance->Count > instance->Peak )
instance->Peak = instance->Count;
#endif
return ret;
}
static void ers_obj_free_entry(ERS *self, void *entry)
{
struct ers_instance_t *instance = (struct ers_instance_t *)self;
struct ers_list *reuse = (struct ers_list *)((unsigned char *)entry - sizeof(struct ers_list));
if (instance == NULL) {
ShowError("ers_obj_free_entry: NULL object, aborting entry freeing.\n");
return;
} else if (entry == NULL) {
ShowError("ers_obj_free_entry: NULL entry, nothing to free.\n");
return;
}
if( instance->Cache->Options & ERS_OPT_CLEAN )
memset((unsigned char*)reuse + sizeof(struct ers_list), 0, instance->Cache->ObjectSize - sizeof(struct ers_list));
reuse->Next = instance->Cache->ReuseList;
instance->Cache->ReuseList = reuse;
instance->Count--;
instance->Cache->UsedObjs--;
}
static size_t ers_obj_entry_size(ERS *self)
{
struct ers_instance_t *instance = (struct ers_instance_t *)self;
if (instance == NULL) {
ShowError("ers_obj_entry_size: NULL object, aborting entry freeing.\n");
return 0;
}
return instance->Cache->ObjectSize;
}
static void ers_obj_destroy(ERS *self)
{
struct ers_instance_t *instance = (struct ers_instance_t *)self;
if (instance == NULL) {
ShowError("ers_obj_destroy: NULL object, aborting entry freeing.\n");
return;
}
if (instance->Count > 0)
if (!(instance->Options & ERS_OPT_CLEAR))
ShowWarning("Memory leak detected at ERS '%s', %d objects not freed.\n", instance->Name, instance->Count);
if (--instance->Cache->ReferenceCount <= 0)
ers_free_cache(instance->Cache, true);
if (instance->Next)
instance->Next->Prev = instance->Prev;
if (instance->Prev)
instance->Prev->Next = instance->Next;
else
InstanceList = instance->Next;
if( instance->Options & ERS_OPT_FREE_NAME )
aFree(instance->Name);
aFree(instance);
}
void ers_cache_size(ERS *self, unsigned int new_size) {
struct ers_instance_t *instance = (struct ers_instance_t *)self;
nullpo_retv(instance);
if( !(instance->Cache->Options&ERS_OPT_FLEX_CHUNK) ) {
ShowWarning("ers_cache_size: '%s' has adjusted its chunk size to '%d', however ERS_OPT_FLEX_CHUNK is missing!\n",instance->Name,new_size);
}
instance->Cache->ChunkSize = new_size;
}
ERS *ers_new(uint32 size, char *name, enum ERSOptions options)
{
struct ers_instance_t *instance;
CREATE(instance,struct ers_instance_t, 1);
size += sizeof(struct ers_list);
#if ERS_ALIGNED > 1 // If it's aligned to 1-byte boundaries, no need to bother.
if (size % ERS_ALIGNED)
size += ERS_ALIGNED - size % ERS_ALIGNED;
#endif
instance->VTable.alloc = ers_obj_alloc_entry;
instance->VTable.free = ers_obj_free_entry;
instance->VTable.entry_size = ers_obj_entry_size;
instance->VTable.destroy = ers_obj_destroy;
instance->VTable.chunk_size = ers_cache_size;
instance->Name = ( options & ERS_OPT_FREE_NAME ) ? aStrdup(name) : name;
instance->Options = options;
instance->Cache = ers_find_cache(size,instance->Options);
instance->Cache->ReferenceCount++;
if (InstanceList == NULL) {
InstanceList = instance;
} else {
instance->Next = InstanceList;
instance->Next->Prev = instance;
InstanceList = instance;
InstanceList->Prev = NULL;
}
instance->Count = 0;
return &instance->VTable;
}
void ers_report(void) {
ers_cache_t *cache;
unsigned int cache_c = 0, blocks_u = 0, blocks_a = 0, memory_b = 0, memory_t = 0;
#ifdef DEBUG
struct ers_instance_t *instance;
unsigned int instance_c = 0, instance_c_d = 0;
for (instance = InstanceList; instance; instance = instance->Next) {
instance_c++;
if( (instance->Options & ERS_OPT_WAIT) && !instance->Count )
continue;
instance_c_d++;
ShowMessage(CL_BOLD"[ERS Instance "CL_NORMAL""CL_WHITE"%s"CL_NORMAL""CL_BOLD" report]\n"CL_NORMAL, instance->Name);
ShowMessage("\tblock size : %u\n", instance->Cache->ObjectSize);
ShowMessage("\tblocks being used : %u\n", instance->Count);
ShowMessage("\tpeak blocks : %u\n", instance->Peak);
ShowMessage("\tmemory in use : %.2f MB\n", instance->Count == 0 ? 0. : (double)((instance->Count * instance->Cache->ObjectSize)/1024)/1024);
}
#endif
for (cache = CacheList; cache; cache = cache->Next) {
cache_c++;
ShowMessage(CL_BOLD"[ERS Cache of size '"CL_NORMAL""CL_WHITE"%u"CL_NORMAL""CL_BOLD"' report]\n"CL_NORMAL, cache->ObjectSize);
ShowMessage("\tinstances : %u\n", cache->ReferenceCount);
ShowMessage("\tblocks in use : %u/%u\n", cache->UsedObjs, cache->UsedObjs+cache->Free);
ShowMessage("\tblocks unused : %u\n", cache->Free);
ShowMessage("\tmemory in use : %.2f MB\n", cache->UsedObjs == 0 ? 0. : (double)((cache->UsedObjs * cache->ObjectSize)/1024)/1024);
ShowMessage("\tmemory allocated : %.2f MB\n", (cache->Free+cache->UsedObjs) == 0 ? 0. : (double)(((cache->UsedObjs+cache->Free) * cache->ObjectSize)/1024)/1024);
blocks_u += cache->UsedObjs;
blocks_a += cache->UsedObjs + cache->Free;
memory_b += cache->UsedObjs * cache->ObjectSize;
memory_t += (cache->UsedObjs+cache->Free) * cache->ObjectSize;
}
#ifdef DEBUG
ShowInfo("ers_report: '"CL_WHITE"%u"CL_NORMAL"' instances in use, '"CL_WHITE"%u"CL_NORMAL"' displayed\n",instance_c,instance_c_d);
#endif
ShowInfo("ers_report: '"CL_WHITE"%u"CL_NORMAL"' caches in use\n",cache_c);
ShowInfo("ers_report: '"CL_WHITE"%u"CL_NORMAL"' blocks in use, consuming '"CL_WHITE"%.2f MB"CL_NORMAL"'\n",blocks_u,(double)((memory_b)/1024)/1024);
ShowInfo("ers_report: '"CL_WHITE"%u"CL_NORMAL"' blocks total, consuming '"CL_WHITE"%.2f MB"CL_NORMAL"' \n",blocks_a,(double)((memory_t)/1024)/1024);
}
/**
* Call on shutdown to clear remaining entries
**/
void ers_final(void) {
struct ers_instance_t *instance = InstanceList, *next;
while( instance ) {
next = instance->Next;
ers_obj_destroy((ERS*)instance);
instance = next;
}
}
#endif