ref: 811f13ff30a4375798a8aee344c0010172ca69af
dir: /z_zone.c/
// Z_zone.c #include "h2stdinc.h" #include "doomdef.h" /* ============================================================================== ZONE MEMORY ALLOCATION There is never any space between memblocks, and there will never be two contiguous free memblocks. The rover can be left pointing at a non-empty block It is of no value to free a cachable block, because it will get overwritten automatically if needed ============================================================================== */ typedef struct { int size; // total bytes malloced, including header memblock_t blocklist; // start / end cap for linked list memblock_t *rover; } memzone_t; static memzone_t *mainzone; boolean MallocFailureOk; /* ======================== = = Z_ClearZone = ======================== */ void Z_ClearZone (memzone_t *zone) { memblock_t *block; // set the entire zone to one free block zone->blocklist.next = zone->blocklist.prev = block = (memblock_t *)( (byte *)zone + sizeof(memzone_t) ); zone->blocklist.user = (void **)zone; zone->blocklist.tag = PU_STATIC; zone->rover = block; block->prev = block->next = &zone->blocklist; block->user = NULL; // free block block->size = zone->size - sizeof(memzone_t); } /* ======================== = = Z_Init = ======================== */ void Z_Init (void) { memblock_t *block; int size; MallocFailureOk = false; mainzone = (memzone_t *)I_ZoneBase (&size); mainzone->size = size; // set the entire zone to one free block mainzone->blocklist.next = mainzone->blocklist.prev = block = (memblock_t *)( (byte *)mainzone + sizeof(memzone_t) ); mainzone->blocklist.user = (void **)mainzone; mainzone->blocklist.tag = PU_STATIC; mainzone->rover = block; block->prev = block->next = &mainzone->blocklist; block->user = NULL; // free block block->size = mainzone->size - sizeof(memzone_t); } /* ======================== = = Z_Free = ======================== */ void Z_Free (void *ptr) { memblock_t *block, *other; block = (memblock_t *) ( (byte *)ptr - sizeof(memblock_t)); if (block->id != ZONEID) I_Error ("Z_Free: freed a pointer without ZONEID"); if (block->user > (void **)0x100) // smaller values are not pointers *block->user = 0; // clear the user's mark block->user = NULL; // mark as free block->tag = 0; block->id = 0; other = block->prev; if (!other->user) { // merge with previous free block other->size += block->size; other->next = block->next; other->next->prev = other; if (block == mainzone->rover) mainzone->rover = other; block = other; } other = block->next; if (!other->user) { // merge the next free block onto the end block->size += other->size; block->next = other->next; block->next->prev = block; if (other == mainzone->rover) mainzone->rover = block; } } /* ======================== = = Z_Malloc = = You can pass a NULL user if the tag is < PU_PURGELEVEL ======================== */ #define MINFRAGMENT 64 void *Z_Malloc (int size, int tag, void *user) { int extra; memblock_t *start, *rover, *newblock, *base; // // scan through the block list looking for the first free block // of sufficient size, throwing out any purgable blocks along the way // size += sizeof(memblock_t); // account for size of block header size = (size + 7) & ~7; // align to 8-byte boundary // // if there is a free block behind the rover, back up over them // base = mainzone->rover; if (!base->prev->user) base = base->prev; rover = base; start = base->prev; do { if (rover == start) // scaned all the way around the list { if (MallocFailureOk == true) { return NULL; } else { I_Error("Z_Malloc: failed on allocation of %i bytes", size); } } if (rover->user) { if (rover->tag < PU_PURGELEVEL) // hit a block that can't be purged, so move base past it base = rover = rover->next; else { // free the rover block (adding the size to base) base = base->prev; // the rover can be the base block Z_Free ((byte *)rover + sizeof(memblock_t)); base = base->next; rover = base->next; } } else rover = rover->next; } while (base->user || base->size < size); // // found a block big enough // extra = base->size - size; if (extra > MINFRAGMENT) { // there will be a free fragment after the allocated block newblock = (memblock_t *) ((byte *)base + size); newblock->size = extra; newblock->user = NULL; // free block newblock->tag = 0; newblock->prev = base; newblock->next = base->next; newblock->next->prev = newblock; base->next = newblock; base->size = size; } if (user) { base->user = (void **)user; // mark as an in use block *(void **)user = (void *) ((byte *)base + sizeof(memblock_t)); } else { if (tag >= PU_PURGELEVEL) I_Error ("Z_Malloc: an owner is required for purgable blocks"); base->user = (void **) 2; // mark as in use, but unowned } base->tag = tag; mainzone->rover = base->next; // next allocation will start looking here base->id = ZONEID; return (void *) ((byte *)base + sizeof(memblock_t)); } /* ======================== = = Z_FreeTags = ======================== */ void Z_FreeTags (int lowtag, int hightag) { memblock_t *block, *next; for (block = mainzone->blocklist.next ; block != &mainzone->blocklist; block = next) { next = block->next; // get link before freeing if (!block->user) continue; // free block if (block->tag >= lowtag && block->tag <= hightag) Z_Free ( (byte *)block+sizeof(memblock_t)); } } /* ======================== = = Z_DumpHeap = ======================== */ void Z_DumpHeap (int lowtag, int hightag) { memblock_t *block; printf ("zone size: %i location: %p\n", mainzone->size,mainzone); printf ("tag range: %i to %i\n", lowtag, hightag); for (block = mainzone->blocklist.next ; ; block = block->next) { if (block->tag >= lowtag && block->tag <= hightag) printf ("block:%p size:%7i user:%p tag:%3i\n", block, block->size, block->user, block->tag); if (block->next == &mainzone->blocklist) break; // all blocks have been hit if ( (byte *)block + block->size != (byte *)block->next) printf ("ERROR: block size does not touch the next block\n"); if ( block->next->prev != block) printf ("ERROR: next block doesn't have proper back link\n"); if (!block->user && !block->next->user) printf ("ERROR: two consecutive free blocks\n"); } } /* ======================== = = Z_FileDumpHeap = ======================== */ void Z_FileDumpHeap (FILE *f) { memblock_t *block; fprintf (f, "zone size: %i location: %p\n", mainzone->size, mainzone); for (block = mainzone->blocklist.next ; ; block = block->next) { fprintf (f, "block:%p size:%7i user:%p tag:%3i\n", block, block->size, block->user, block->tag); if (block->next == &mainzone->blocklist) break; // all blocks have been hit if ( (byte *)block + block->size != (byte *)block->next) fprintf (f, "ERROR: block size does not touch the next block\n"); if ( block->next->prev != block) fprintf (f, "ERROR: next block doesn't have proper back link\n"); if (!block->user && !block->next->user) fprintf (f, "ERROR: two consecutive free blocks\n"); } } /* ======================== = = Z_CheckHeap = ======================== */ void Z_CheckHeap (void) { memblock_t *block; for (block = mainzone->blocklist.next ; ; block = block->next) { if (block->next == &mainzone->blocklist) break; // all blocks have been hit if ( (byte *)block + block->size != (byte *)block->next) I_Error ("Z_CheckHeap: block size does not touch the next block\n"); if ( block->next->prev != block) I_Error ("Z_CheckHeap: next block doesn't have proper back link\n"); if (!block->user && !block->next->user) I_Error ("Z_CheckHeap: two consecutive free blocks\n"); } } /* ======================== = = Z_ChangeTag = ======================== */ void Z_ChangeTag2 (void *ptr, int tag) { memblock_t *block; block = (memblock_t *) ( (byte *)ptr - sizeof(memblock_t)); if (block->id != ZONEID) I_Error ("Z_ChangeTag: freed a pointer without ZONEID"); if (tag >= PU_PURGELEVEL && (uintptr_t)block->user < 0x100) I_Error ("Z_ChangeTag: an owner is required for purgable blocks"); block->tag = tag; } /* ======================== = = Z_FreeMemory = ======================== */ int Z_FreeMemory (void) { memblock_t *block; int freemem; freemem = 0; for (block = mainzone->blocklist.next ; block != &mainzone->blocklist; block = block->next) { if (!block->user || block->tag >= PU_PURGELEVEL) freemem += block->size; } return freemem; }