#define pr_fmt(fmt) "[alloc]: " fmt //#define DEBUG #include "alloc.h" #include "errno.h" #include "list.h" #include "math.h" #include "mem.h" #include "vga.h" #define IS_SELF_CONTAINED(desc) ((vaddr_t)((desc)->page) == (vaddr_t)(desc)) // Slab will contains object from sizeof(void *) to PAGE_SIZE/2 by pow2 #define SLUB_SIZE (PAGE_SHIFT - 1) struct slabDesc *slub; int addSlab(struct slabDesc **desc, size_t size, int self_containing); static int formatPage(struct slabEntry *desc, size_t size, int selfContained); int allocInit(void) { uint start = log2(sizeof(void *)); list_init(slub); int ret; if ((ret = allocBookSlab(sizeof(struct slabDesc), 1))) { pr_devel("Fail to allocBookSlab %d for slabDesc :( \n", ret); return ret; } if ((ret = allocBookSlab(sizeof(struct slabEntry), 1))) { pr_devel("Fail to allocBookSlab %d for slabEntry :( \n", ret); return ret; } for (uint i = start; i <= SLUB_SIZE; i++) { if ((ret = allocBookSlab(1U << i, 0))) { pr_devel("Fail to allocBookSlab %d for %d \n", ret, (1U << i)); return ret; } } return 0; } int allocBookSlab(size_t size, int selfContained) { pr_devel("%s for size %d is self %d\n", __func__, size, selfContained); struct slabDesc *slab = NULL; int slabIdx; int ret; list_foreach(slub, slab, slabIdx) { if (slab->size == size) { return -EEXIST; } if (slab->size > size) { break; } } struct slabDesc *newSlab; if ((ret = addSlab(&newSlab, size, selfContained))) return ret; if (list_foreach_early_break(slub, slab, slabIdx)) { list_insert_before(slub, slab, newSlab); } else { list_add_tail(slub, newSlab); } return 0; } int addSlab(struct slabDesc **desc, size_t size, int selfContained) { // pr_devel("%s for size %d is self %d\n", __func__, size, selfContained); if (size > PAGE_SIZE) return -ENOENT; paddr_t alloc = allocPhyPage(); if (alloc == (paddr_t)NULL) return -ENOMEM; if (pageMap((vaddr_t)alloc, alloc, PAGING_MEM_WRITE)) return -ENOMEM; if (selfContained) { *desc = (struct slabDesc *)alloc; ((*desc)->slab).freeEl = (char *)(*desc) + sizeof(struct slabDesc); } else { *desc = malloc(sizeof(struct slabDesc)); (*desc)->slab.freeEl = (void *)alloc; } struct slabEntry *slab = &(*desc)->slab; list_singleton(slab, slab); slab->page = (vaddr_t)alloc; slab->full = 0; slab->size = size; (*desc)->size = size; // pr_devel("got page %d for size %d first %d", alloc, size, (*desc)->slab.freeEl); return formatPage(&(*desc)->slab, size, selfContained); } int addSlabEntry(struct slabEntry **desc, size_t size, int selfContained) { pr_devel("%s for size %d is self %d\n", __func__, size, selfContained); if (size > PAGE_SIZE) return -ENOENT; paddr_t alloc = allocPhyPage(); if (alloc == (paddr_t)NULL) return -ENOMEM; if (pageMap((vaddr_t)alloc, alloc, PAGING_MEM_WRITE)) return -ENOMEM; if (selfContained) { *desc = (struct slabEntry *)alloc; (*desc)->freeEl = (char *)(*desc) + sizeof(struct slabEntry); } else { *desc = malloc(sizeof(struct slabEntry)); (*desc)->freeEl = (void *)alloc; } list_singleton(*desc, *desc); (*desc)->page = (vaddr_t)alloc; (*desc)->full = 0; (*desc)->size = size; // pr_devel("got page %d for size %d first %d", alloc, size, (*desc)->freeEl); return formatPage((*desc), size, selfContained); } static int formatPage(struct slabEntry *desc, size_t size, int selfContained) { char *cur = desc->freeEl; ulong nbEl = PAGE_SIZE / size - 1; if (selfContained) nbEl = (PAGE_SIZE - sizeof(struct slabDesc)) / size - 1; ulong i; for (i = 0; i < nbEl; i++) { *((vaddr_t *)cur) = (vaddr_t)cur + size; cur += size; } *((vaddr_t *)cur) = (vaddr_t)NULL; // pr_devel("last at %d allocated %d\n", cur, i + 1); return 0; } static void *allocFromSlab(struct slabEntry *slab) { vaddr_t *next = slab->freeEl; if (*next == (vaddr_t)NULL) { pr_devel("Slab @%d for %d is now full\n", slab, slab->size); slab->full = 1; } else { slab->freeEl = (void *)(*next); } return (void *)next; } void *malloc(size_t size) { if (size > (1U << SLUB_SIZE)) { printf("implement malloc for big size\n"); return NULL; } struct slabDesc *slab; uint slubIdx; list_foreach(slub, slab, slubIdx) { if (size <= slab->size) break; } struct slabEntry *slabEntry; int slabIdx; list_foreach(&slab->slab, slabEntry, slabIdx) { if (!slabEntry->full) { // pr_devel("found place in slub %d at idx %d for size %d\n", slubIdx, // slabIdx, size); return allocFromSlab(slabEntry); } } // No room found struct slabEntry *newSlabEntry; struct slabEntry *slabList = &slab->slab; int ret; if ((ret = addSlabEntry(&newSlabEntry, slab->size, IS_SELF_CONTAINED(&slab->slab)))) { pr_devel("Fail to addSlabEntry %d\n", ret); return NULL; } pr_devel("Allocate new slab for object of size %d\n", slab->size); list_add_tail(slabList, newSlabEntry); return allocFromSlab(newSlabEntry); } int slabFree(void *ptr, struct slabEntry *slab) { struct slabEntry *slabEntry; int slabIdx; list_foreach(slab, slabEntry, slabIdx) { if ((slabEntry->page <= (vaddr_t)ptr) && ((vaddr_t)ptr < (slabEntry->page + PAGE_SIZE))) { // pr_devel("free place! was %d is now %d\n", slabEntry->freeEl, ptr); *((vaddr_t *)ptr) = (vaddr_t)slabEntry->freeEl; slabEntry->freeEl = ptr; slabEntry->full = 0; return 1; } } return 0; } void free(void *ptr) { if (!ptr) return; struct slabDesc *slab; int slabIdx; list_foreach(slub, slab, slabIdx) { struct slabEntry *slabEntry; int entryIdx; list_foreach(&slab->slab, slabEntry, entryIdx) { if (slabFree(ptr, slabEntry)) return; } } pr_devel("free: slab not found\n"); }