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Use size_t consistently in dsa.{ch}.

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Takeshi Ideriha complained that there is a mixture of Size and size_t
in dsa.c and corresponding header.  Let's use size_t.  Back-patch to 10
where dsa.c landed, to make future back-patching easy.

Discussion: https://postgr.es/m/4E72940DA2BF16479384A86D54D0988A6F19ABD9%40G01JPEXMBKW04
This commit is contained in:
Thomas Munro 2018-09-22 00:40:13 +12:00
parent 3d4b143dc7
commit ec7b27675d
2 changed files with 53 additions and 53 deletions
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96
src/backend/utils/mmgr/dsa.c
View File

@ -65,7 +65,7 @@
* double this size, and so on. Larger segments may be created if necessary
* to satisfy large requests.
*/
#define DSA_INITIAL_SEGMENT_SIZE ((Size) (1 * 1024 * 1024))
#define DSA_INITIAL_SEGMENT_SIZE ((size_t) (1 * 1024 * 1024))
/*
* How many segments to create before we double the segment size. If this is
@ -98,7 +98,7 @@
#define DSA_OFFSET_BITMASK (((dsa_pointer) 1 << DSA_OFFSET_WIDTH) - 1)
/* The maximum size of a DSM segment. */
#define DSA_MAX_SEGMENT_SIZE ((Size) 1 << DSA_OFFSET_WIDTH)
#define DSA_MAX_SEGMENT_SIZE ((size_t) 1 << DSA_OFFSET_WIDTH)
/* Number of pages (see FPM_PAGE_SIZE) per regular superblock. */
#define DSA_PAGES_PER_SUPERBLOCK 16
@ -121,7 +121,7 @@
#define DSA_EXTRACT_OFFSET(dp) ((dp) & DSA_OFFSET_BITMASK)
/* The type used for index segment indexes (zero based). */
typedef Size dsa_segment_index;
typedef size_t dsa_segment_index;
/* Sentinel value for dsa_segment_index indicating 'none' or 'end'. */
#define DSA_SEGMENT_INDEX_NONE (~(dsa_segment_index)0)
@ -153,9 +153,9 @@ typedef struct
/* Sanity check magic value. */
uint32 magic;
/* Total number of pages in this segment (excluding metadata area). */
Size usable_pages;
size_t usable_pages;
/* Total size of this segment in bytes. */
Size size;
size_t size;
/*
* Index of the segment that precedes this one in the same segment bin, or
@ -169,7 +169,7 @@ typedef struct
*/
dsa_segment_index next;
/* The index of the bin that contains this segment. */
Size bin;
size_t bin;
/*
* A flag raised to indicate that this segment is being returned to the
@ -197,7 +197,7 @@ typedef struct
dsa_pointer prevspan; /* Previous span. */
dsa_pointer nextspan; /* Next span. */
dsa_pointer start; /* Starting address. */
Size npages; /* Length of span in pages. */
size_t npages; /* Length of span in pages. */
uint16 size_class; /* Size class. */
uint16 ninitialized; /* Maximum number of objects ever allocated. */
uint16 nallocatable; /* Number of objects currently allocatable. */
@ -308,9 +308,9 @@ typedef struct
/* The object pools for each size class. */
dsa_area_pool pools[DSA_NUM_SIZE_CLASSES];
/* The total size of all active segments. */
Size total_segment_size;
size_t total_segment_size;
/* The maximum total size of backing storage we are allowed. */
Size max_total_segment_size;
size_t max_total_segment_size;
/* Highest used segment index in the history of this area. */
dsa_segment_index high_segment_index;
/* The reference count for this area. */
@ -318,7 +318,7 @@ typedef struct
/* A flag indicating that this area has been pinned. */
bool pinned;
/* The number of times that segments have been freed. */
Size freed_segment_counter;
size_t freed_segment_counter;
/* The LWLock tranche ID. */
int lwlock_tranche_id;
/* The general lock (protects everything except object pools). */
@ -371,7 +371,7 @@ struct dsa_area
dsa_segment_index high_segment_index;
/* The last observed freed_segment_counter. */
Size freed_segment_counter;
size_t freed_segment_counter;
};
#define DSA_SPAN_NOTHING_FREE ((uint16) -1)
@ -382,7 +382,7 @@ struct dsa_area
(segment_map_ptr - &area->segment_maps[0])
static void init_span(dsa_area *area, dsa_pointer span_pointer,
dsa_area_pool *pool, dsa_pointer start, Size npages,
dsa_area_pool *pool, dsa_pointer start, size_t npages,
uint16 size_class);
static bool transfer_first_span(dsa_area *area, dsa_area_pool *pool,
int fromclass, int toclass);
@ -396,8 +396,8 @@ static void unlink_span(dsa_area *area, dsa_area_span *span);
static void add_span_to_fullness_class(dsa_area *area, dsa_area_span *span,
dsa_pointer span_pointer, int fclass);
static void unlink_segment(dsa_area *area, dsa_segment_map *segment_map);
static dsa_segment_map *get_best_segment(dsa_area *area, Size npages);
static dsa_segment_map *make_new_segment(dsa_area *area, Size requested_pages);
static dsa_segment_map *get_best_segment(dsa_area *area, size_t npages);
static dsa_segment_map *make_new_segment(dsa_area *area, size_t requested_pages);
static dsa_area *create_internal(void *place, size_t size,
int tranche_id,
dsm_handle control_handle,
@ -662,7 +662,7 @@ dsa_pin_mapping(dsa_area *area)
* flags.
*/
dsa_pointer
dsa_allocate_extended(dsa_area *area, Size size, int flags)
dsa_allocate_extended(dsa_area *area, size_t size, int flags)
{
uint16 size_class;
dsa_pointer start_pointer;
@ -685,8 +685,8 @@ dsa_allocate_extended(dsa_area *area, Size size, int flags)
*/
if (size > dsa_size_classes[lengthof(dsa_size_classes) - 1])
{
Size npages = fpm_size_to_pages(size);
Size first_page;
size_t npages = fpm_size_to_pages(size);
size_t first_page;
dsa_pointer span_pointer;
dsa_area_pool *pool = &area->control->pools[DSA_SCLASS_SPAN_LARGE];
@ -818,7 +818,7 @@ dsa_free(dsa_area *area, dsa_pointer dp)
dsa_area_span *span;
char *superblock;
char *object;
Size size;
size_t size;
int size_class;
/* Make sure we don't have a stale segment in the slot 'dp' refers to. */
@ -925,7 +925,7 @@ void *
dsa_get_address(dsa_area *area, dsa_pointer dp)
{
dsa_segment_index index;
Size offset;
size_t offset;
/* Convert InvalidDsaPointer to NULL. */
if (!DsaPointerIsValid(dp))
@ -998,7 +998,7 @@ dsa_unpin(dsa_area *area)
* backends that have attached to them.
*/
void
dsa_set_size_limit(dsa_area *area, Size limit)
dsa_set_size_limit(dsa_area *area, size_t limit)
{
LWLockAcquire(DSA_AREA_LOCK(area), LW_EXCLUSIVE);
area->control->max_total_segment_size = limit;
@ -1057,7 +1057,7 @@ dsa_trim(dsa_area *area)
void
dsa_dump(dsa_area *area)
{
Size i,
size_t i,
j;
/*
@ -1158,10 +1158,10 @@ dsa_dump(dsa_area *area)
* Return the smallest size that you can successfully provide to
* dsa_create_in_place.
*/
Size
size_t
dsa_minimum_size(void)
{
Size size;
size_t size;
int pages = 0;
size = MAXALIGN(sizeof(dsa_area_control)) +
@ -1189,9 +1189,9 @@ create_internal(void *place, size_t size,
dsa_area_control *control;
dsa_area *area;
dsa_segment_map *segment_map;
Size usable_pages;
Size total_pages;
Size metadata_bytes;
size_t usable_pages;
size_t total_pages;
size_t metadata_bytes;
int i;
/* Sanity check on the space we have to work in. */
@ -1224,7 +1224,7 @@ create_internal(void *place, size_t size,
control->segment_header.freed = false;
control->segment_header.size = DSA_INITIAL_SEGMENT_SIZE;
control->handle = control_handle;
control->max_total_segment_size = (Size) -1;
control->max_total_segment_size = (size_t) -1;
control->total_segment_size = size;
memset(&control->segment_handles[0], 0,
sizeof(dsm_handle) * DSA_MAX_SEGMENTS);
@ -1337,11 +1337,11 @@ attach_internal(void *place, dsm_segment *segment, dsa_handle handle)
static void
init_span(dsa_area *area,
dsa_pointer span_pointer,
dsa_area_pool *pool, dsa_pointer start, Size npages,
dsa_area_pool *pool, dsa_pointer start, size_t npages,
uint16 size_class)
{
dsa_area_span *span = dsa_get_address(area, span_pointer);
Size obsize = dsa_size_classes[size_class];
size_t obsize = dsa_size_classes[size_class];
/*
* The per-pool lock must be held because we manipulate the span list for
@ -1437,7 +1437,7 @@ alloc_object(dsa_area *area, int size_class)
dsa_pointer block;
dsa_pointer result;
char *object;
Size size;
size_t size;
/*
* Even though ensure_active_superblock can in turn call alloc_object if
@ -1523,12 +1523,12 @@ ensure_active_superblock(dsa_area *area, dsa_area_pool *pool,
{
dsa_pointer span_pointer;
dsa_pointer start_pointer;
Size obsize = dsa_size_classes[size_class];
Size nmax;
size_t obsize = dsa_size_classes[size_class];
size_t nmax;
int fclass;
Size npages = 1;
Size first_page;
Size i;
size_t npages = 1;
size_t first_page;
size_t i;
dsa_segment_map *segment_map;
Assert(LWLockHeldByMe(DSA_SCLASS_LOCK(area, size_class)));
@ -1959,9 +1959,9 @@ unlink_segment(dsa_area *area, dsa_segment_map *segment_map)
* pages map.
*/
static dsa_segment_map *
get_best_segment(dsa_area *area, Size npages)
get_best_segment(dsa_area *area, size_t npages)
{
Size bin;
size_t bin;
Assert(LWLockHeldByMe(DSA_AREA_LOCK(area)));
check_for_freed_segments_locked(area);
@ -1978,7 +1978,7 @@ get_best_segment(dsa_area *area, Size npages)
* The minimum contiguous size that any segment in this bin should
* have. We'll re-bin if we see segments with fewer.
*/
Size threshold = (Size) 1 << (bin - 1);
size_t threshold = (size_t) 1 << (bin - 1);
dsa_segment_index segment_index;
/* Search this bin for a segment with enough contiguous space. */
@ -1987,7 +1987,7 @@ get_best_segment(dsa_area *area, Size npages)
{
dsa_segment_map *segment_map;
dsa_segment_index next_segment_index;
Size contiguous_pages;
size_t contiguous_pages;
segment_map = get_segment_by_index(area, segment_index);
next_segment_index = segment_map->header->next;
@ -2003,7 +2003,7 @@ get_best_segment(dsa_area *area, Size npages)
/* Re-bin it if it's no longer in the appropriate bin. */
if (contiguous_pages < threshold)
{
Size new_bin;
size_t new_bin;
new_bin = contiguous_pages_to_segment_bin(contiguous_pages);
@ -2051,13 +2051,13 @@ get_best_segment(dsa_area *area, Size npages)
* segments would be exceeded.
*/
static dsa_segment_map *
make_new_segment(dsa_area *area, Size requested_pages)
make_new_segment(dsa_area *area, size_t requested_pages)
{
dsa_segment_index new_index;
Size metadata_bytes;
Size total_size;
Size total_pages;
Size usable_pages;
size_t metadata_bytes;
size_t total_size;
size_t total_pages;
size_t usable_pages;
dsa_segment_map *segment_map;
dsm_segment *segment;
@ -2095,7 +2095,7 @@ make_new_segment(dsa_area *area, Size requested_pages)
* pages we can fit.
*/
total_size = DSA_INITIAL_SEGMENT_SIZE *
((Size) 1 << (new_index / DSA_NUM_SEGMENTS_AT_EACH_SIZE));
((size_t) 1 << (new_index / DSA_NUM_SEGMENTS_AT_EACH_SIZE));
total_size = Min(total_size, DSA_MAX_SEGMENT_SIZE);
total_size = Min(total_size,
area->control->max_total_segment_size -
@ -2222,7 +2222,7 @@ make_new_segment(dsa_area *area, Size requested_pages)
static void
check_for_freed_segments(dsa_area *area)
{
Size freed_segment_counter;
size_t freed_segment_counter;
/*
* Any other process that has freed a segment has incremented
@ -2258,7 +2258,7 @@ check_for_freed_segments(dsa_area *area)
static void
check_for_freed_segments_locked(dsa_area *area)
{
Size freed_segment_counter;
size_t freed_segment_counter;
int i;
Assert(LWLockHeldByMe(DSA_AREA_LOCK(area)));

10
src/include/utils/dsa.h
View File

@ -22,7 +22,7 @@ struct dsa_area;
typedef struct dsa_area dsa_area;
/*
* If this system only uses a 32-bit value for Size, then use the 32-bit
* If this system only uses a 32-bit value for size_t, then use the 32-bit
* implementation of DSA. This limits the amount of DSA that can be created
* to something significantly less than the entire 4GB address space because
* the DSA pointer must encode both a segment identifier and an offset, but
@ -102,7 +102,7 @@ typedef dsm_handle dsa_handle;
extern void dsa_startup(void);
extern dsa_area *dsa_create(int tranche_id);
extern dsa_area *dsa_create_in_place(void *place, Size size,
extern dsa_area *dsa_create_in_place(void *place, size_t size,
int tranche_id, dsm_segment *segment);
extern dsa_area *dsa_attach(dsa_handle handle);
extern dsa_area *dsa_attach_in_place(void *place, dsm_segment *segment);
@ -113,10 +113,10 @@ extern void dsa_pin_mapping(dsa_area *area);
extern void dsa_detach(dsa_area *area);
extern void dsa_pin(dsa_area *area);
extern void dsa_unpin(dsa_area *area);
extern void dsa_set_size_limit(dsa_area *area, Size limit);
extern Size dsa_minimum_size(void);
extern void dsa_set_size_limit(dsa_area *area, size_t limit);
extern size_t dsa_minimum_size(void);
extern dsa_handle dsa_get_handle(dsa_area *area);
extern dsa_pointer dsa_allocate_extended(dsa_area *area, Size size, int flags);
extern dsa_pointer dsa_allocate_extended(dsa_area *area, size_t size, int flags);
extern void dsa_free(dsa_area *area, dsa_pointer dp);
extern void *dsa_get_address(dsa_area *area, dsa_pointer dp);
extern void dsa_trim(dsa_area *area);