/*------------------------------------------------------------------------- * * freepage.h * Management of page-organized free memory. * * Portions Copyright (c) 1996-2021, PostgreSQL Global Development Group * Portions Copyright (c) 1994, Regents of the University of California * * src/include/utils/freepage.h * *------------------------------------------------------------------------- */ #ifndef FREEPAGE_H #define FREEPAGE_H #include "storage/lwlock.h" #include "utils/relptr.h" /* Forward declarations. */ typedef struct FreePageSpanLeader FreePageSpanLeader; typedef struct FreePageBtree FreePageBtree; typedef struct FreePageManager FreePageManager; /* * PostgreSQL normally uses 8kB pages for most things, but many common * architecture/operating system pairings use a 4kB page size for memory * allocation, so we do that here also. */ #define FPM_PAGE_SIZE 4096 /* * Each freelist except for the last contains only spans of one particular * size. Everything larger goes on the last one. In some sense this seems * like a waste since most allocations are in a few common sizes, but it * means that small allocations can simply pop the head of the relevant list * without needing to worry about whether the object we find there is of * precisely the correct size (because we know it must be). */ #define FPM_NUM_FREELISTS 129 /* Define relative pointer types. */ relptr_declare(FreePageBtree, RelptrFreePageBtree); relptr_declare(FreePageManager, RelptrFreePageManager); relptr_declare(FreePageSpanLeader, RelptrFreePageSpanLeader); /* Everything we need in order to manage free pages (see freepage.c) */ struct FreePageManager { RelptrFreePageManager self; RelptrFreePageBtree btree_root; RelptrFreePageSpanLeader btree_recycle; unsigned btree_depth; unsigned btree_recycle_count; Size singleton_first_page; Size singleton_npages; Size contiguous_pages; bool contiguous_pages_dirty; RelptrFreePageSpanLeader freelist[FPM_NUM_FREELISTS]; #ifdef FPM_EXTRA_ASSERTS /* For debugging only, pages put minus pages gotten. */ Size free_pages; #endif }; /* Macros to convert between page numbers (expressed as Size) and pointers. */ #define fpm_page_to_pointer(base, page) \ (AssertVariableIsOfTypeMacro(page, Size), \ (base) + FPM_PAGE_SIZE * (page)) #define fpm_pointer_to_page(base, ptr) \ (((Size) (((char *) (ptr)) - (base))) / FPM_PAGE_SIZE) /* Macro to convert an allocation size to a number of pages. */ #define fpm_size_to_pages(sz) \ (((sz) + FPM_PAGE_SIZE - 1) / FPM_PAGE_SIZE) /* Macros to check alignment of absolute and relative pointers. */ #define fpm_pointer_is_page_aligned(base, ptr) \ (((Size) (((char *) (ptr)) - (base))) % FPM_PAGE_SIZE == 0) #define fpm_relptr_is_page_aligned(base, relptr) \ (relptr_offset(relptr) % FPM_PAGE_SIZE == 0) /* Macro to find base address of the segment containing a FreePageManager. */ #define fpm_segment_base(fpm) \ (((char *) fpm) - relptr_offset(fpm->self)) /* Macro to access a FreePageManager's largest consecutive run of pages. */ #define fpm_largest(fpm) \ (fpm->contiguous_pages) /* Functions to manipulate the free page map. */ extern void FreePageManagerInitialize(FreePageManager *fpm, char *base); extern bool FreePageManagerGet(FreePageManager *fpm, Size npages, Size *first_page); extern void FreePageManagerPut(FreePageManager *fpm, Size first_page, Size npages); extern char *FreePageManagerDump(FreePageManager *fpm); #endif /* FREEPAGE_H */