Edata: Add a ranged bit.

We steal the dumpable bit, which we ended up not needing.
This commit is contained in:
David Goldblatt 2020-03-13 12:38:28 -07:00 committed by David Goldblatt
parent bd4fdf295e
commit 12eb888e54
6 changed files with 38 additions and 47 deletions

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@ -68,7 +68,7 @@ struct edata_s {
* a: arena_ind
* b: slab
* c: committed
* d: dumpable
* r: ranged
* z: zeroed
* t: state
* i: szind
@ -76,7 +76,7 @@ struct edata_s {
* s: bin_shard
* n: sn
*
* nnnnnnnn ... nnnnnnss ssssffff ffffffii iiiiiitt zdcbaaaa aaaaaaaa
* nnnnnnnn ... nnnnnnss ssssffff ffffffii iiiiiitt zrcbaaaa aaaaaaaa
*
* arena_ind: Arena from which this extent came, or all 1 bits if
* unassociated.
@ -91,22 +91,10 @@ struct edata_s {
* as on a system that overcommits and satisfies physical
* memory needs on demand via soft page faults.
*
* dumpable: The dumpable flag indicates whether or not we've set the
* memory in question to be dumpable. Note that this
* interacts somewhat subtly with user-specified extent hooks,
* since we don't know if *they* are fiddling with
* dumpability (in which case, we don't want to undo whatever
* they're doing). To deal with this scenario, we:
* - Make dumpable false only for memory allocated with the
* default hooks.
* - Only allow memory to go from non-dumpable to dumpable,
* and only once.
* - Never make the OS call to allow dumping when the
* dumpable bit is already set.
* These three constraints mean that we will never
* accidentally dump user memory that the user meant to set
* nondumpable with their extent hooks.
*
* ranged: Whether or not this extent is currently owned by the range
* allocator. This may be false even if the extent originally
* came from a range allocator; this indicates its *current*
* owner, not its original owner.
*
* zeroed: The zeroed flag is used by extent recycling code to track
* whether memory is zero-filled.
@ -148,12 +136,12 @@ struct edata_s {
#define EDATA_BITS_COMMITTED_SHIFT (EDATA_BITS_SLAB_WIDTH + EDATA_BITS_SLAB_SHIFT)
#define EDATA_BITS_COMMITTED_MASK MASK(EDATA_BITS_COMMITTED_WIDTH, EDATA_BITS_COMMITTED_SHIFT)
#define EDATA_BITS_DUMPABLE_WIDTH 1
#define EDATA_BITS_DUMPABLE_SHIFT (EDATA_BITS_COMMITTED_WIDTH + EDATA_BITS_COMMITTED_SHIFT)
#define EDATA_BITS_DUMPABLE_MASK MASK(EDATA_BITS_DUMPABLE_WIDTH, EDATA_BITS_DUMPABLE_SHIFT)
#define EDATA_BITS_RANGED_WIDTH 1
#define EDATA_BITS_RANGED_SHIFT (EDATA_BITS_COMMITTED_WIDTH + EDATA_BITS_COMMITTED_SHIFT)
#define EDATA_BITS_RANGED_MASK MASK(EDATA_BITS_RANGED_WIDTH, EDATA_BITS_RANGED_SHIFT)
#define EDATA_BITS_ZEROED_WIDTH 1
#define EDATA_BITS_ZEROED_SHIFT (EDATA_BITS_DUMPABLE_WIDTH + EDATA_BITS_DUMPABLE_SHIFT)
#define EDATA_BITS_ZEROED_SHIFT (EDATA_BITS_RANGED_WIDTH + EDATA_BITS_RANGED_SHIFT)
#define EDATA_BITS_ZEROED_MASK MASK(EDATA_BITS_ZEROED_WIDTH, EDATA_BITS_ZEROED_SHIFT)
#define EDATA_BITS_STATE_WIDTH 2
@ -283,9 +271,9 @@ edata_committed_get(const edata_t *edata) {
}
static inline bool
edata_dumpable_get(const edata_t *edata) {
return (bool)((edata->e_bits & EDATA_BITS_DUMPABLE_MASK) >>
EDATA_BITS_DUMPABLE_SHIFT);
edata_ranged_get(const edata_t *edata) {
return (bool)((edata->e_bits & EDATA_BITS_RANGED_MASK) >>
EDATA_BITS_RANGED_SHIFT);
}
static inline bool
@ -479,9 +467,9 @@ edata_committed_set(edata_t *edata, bool committed) {
}
static inline void
edata_dumpable_set(edata_t *edata, bool dumpable) {
edata->e_bits = (edata->e_bits & ~EDATA_BITS_DUMPABLE_MASK) |
((uint64_t)dumpable << EDATA_BITS_DUMPABLE_SHIFT);
edata_ranged_set(edata_t *edata, bool ranged) {
edata->e_bits = (edata->e_bits & ~EDATA_BITS_RANGED_MASK) |
((uint64_t)ranged << EDATA_BITS_RANGED_SHIFT);
}
static inline void
@ -522,8 +510,9 @@ edata_is_head_set(edata_t *edata, bool is_head) {
static inline void
edata_init(edata_t *edata, unsigned arena_ind, void *addr, size_t size,
bool slab, szind_t szind, size_t sn, extent_state_t state, bool zeroed,
bool committed, bool dumpable, extent_head_state_t is_head) {
bool committed, bool ranged, extent_head_state_t is_head) {
assert(addr == PAGE_ADDR2BASE(addr) || !slab);
assert(ranged == false);
edata_arena_ind_set(edata, arena_ind);
edata_addr_set(edata, addr);
@ -534,7 +523,7 @@ edata_init(edata_t *edata, unsigned arena_ind, void *addr, size_t size,
edata_state_set(edata, state);
edata_zeroed_set(edata, zeroed);
edata_committed_set(edata, committed);
edata_dumpable_set(edata, dumpable);
edata_ranged_set(edata, ranged);
ql_elm_new(edata, ql_link);
edata_is_head_set(edata, is_head == EXTENT_IS_HEAD);
if (config_prof) {
@ -553,7 +542,7 @@ edata_binit(edata_t *edata, void *addr, size_t bsize, size_t sn) {
edata_state_set(edata, extent_state_active);
edata_zeroed_set(edata, true);
edata_committed_set(edata, true);
edata_dumpable_set(edata, true);
edata_ranged_set(edata, false);
}
static inline void

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@ -246,11 +246,11 @@ emap_split_prepare(tsdn_t *tsdn, emap_t *emap, emap_prepare_t *prepare,
(void *)((uintptr_t)edata_base_get(edata) + size_a), size_b,
slab_b, szind_b, edata_sn_get(edata), edata_state_get(edata),
edata_zeroed_get(edata), edata_committed_get(edata),
edata_dumpable_get(edata), EXTENT_NOT_HEAD);
edata_ranged_get(edata), EXTENT_NOT_HEAD);
/*
* We use incorrect constants for things like arena ind, zero, dump, and
* commit state, and head status. This is a fake edata_t, used to
* We use incorrect constants for things like arena ind, zero, ranged,
* and commit state, and head status. This is a fake edata_t, used to
* facilitate a lookup.
*/
edata_t lead;

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@ -80,7 +80,7 @@ ecache_alloc(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
bool commit = true;
edata_t *edata = extent_recycle(tsdn, shard, ehooks, ecache,
new_addr, size, alignment, slab, szind, zero, &commit, false);
assert(edata == NULL || edata_dumpable_get(edata));
assert(edata == NULL || !edata_ranged_get(edata));
return edata;
}
@ -110,7 +110,7 @@ ecache_alloc_grow(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
size, alignment, slab, szind, zero, &commit);
}
assert(edata == NULL || edata_dumpable_get(edata));
assert(edata == NULL || !edata_ranged_get(edata));
return edata;
}
@ -119,7 +119,7 @@ ecache_dalloc(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
ecache_t *ecache, edata_t *edata) {
assert(edata_base_get(edata) != NULL);
assert(edata_size_get(edata) != 0);
assert(edata_dumpable_get(edata));
assert(!edata_ranged_get(edata));
witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn),
WITNESS_RANK_CORE, 0);
@ -661,7 +661,8 @@ extent_grow_retained(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
edata_init(edata, ecache_ind_get(&shard->ecache_retained), ptr,
alloc_size, false, SC_NSIZES, pa_shard_extent_sn_next(shard),
extent_state_active, zeroed, committed, true, EXTENT_IS_HEAD);
extent_state_active, zeroed, committed, /* ranged */ false,
EXTENT_IS_HEAD);
if (extent_register_no_gdump_add(tsdn, edata)) {
edata_cache_put(tsdn, &shard->edata_cache, edata);
@ -814,7 +815,8 @@ extent_alloc_wrapper(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
}
edata_init(edata, ecache_ind_get(&shard->ecache_dirty), addr,
size, slab, szind, pa_shard_extent_sn_next(shard),
extent_state_active, *zero, *commit, true, EXTENT_NOT_HEAD);
extent_state_active, *zero, *commit, /* ranged */ false,
EXTENT_NOT_HEAD);
if (extent_register(tsdn, edata)) {
edata_cache_put(tsdn, &shard->edata_cache, edata);
return NULL;
@ -1059,7 +1061,7 @@ extent_dalloc_wrapper_try(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
void
extent_dalloc_wrapper(tsdn_t *tsdn, pa_shard_t *shard, ehooks_t *ehooks,
edata_t *edata) {
assert(edata_dumpable_get(edata));
assert(!edata_ranged_get(edata));
witness_assert_depth_to_rank(tsdn_witness_tsdp_get(tsdn),
WITNESS_RANK_CORE, 0);

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@ -157,7 +157,7 @@ extent_alloc_dss(tsdn_t *tsdn, arena_t *arena, void *new_addr, size_t size,
gap_addr_page, gap_size_page, false,
SC_NSIZES, pa_shard_extent_sn_next(
&arena->pa_shard), extent_state_active,
false, true, true, EXTENT_NOT_HEAD);
false, true, false, EXTENT_NOT_HEAD);
}
/*
* Compute the address just past the end of the desired
@ -206,7 +206,7 @@ extent_alloc_dss(tsdn_t *tsdn, arena_t *arena, void *new_addr, size_t size,
arena_ind_get(arena), ret, size,
size, false, SC_NSIZES,
extent_state_active, false, true,
true, EXTENT_NOT_HEAD);
false, EXTENT_NOT_HEAD);
if (extent_purge_forced_wrapper(tsdn,
ehooks, &edata, 0, size)) {
memset(ret, 0, size);

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@ -35,9 +35,9 @@ TEST_BEGIN(test_rtree_extrema) {
edata_t edata_a, edata_b;
edata_init(&edata_a, INVALID_ARENA_IND, NULL, SC_LARGE_MINCLASS,
false, sz_size2index(SC_LARGE_MINCLASS), 0,
extent_state_active, false, false, true, EXTENT_NOT_HEAD);
extent_state_active, false, false, false, EXTENT_NOT_HEAD);
edata_init(&edata_b, INVALID_ARENA_IND, NULL, 0, false, SC_NSIZES, 0,
extent_state_active, false, false, true, EXTENT_NOT_HEAD);
extent_state_active, false, false, false, EXTENT_NOT_HEAD);
tsdn_t *tsdn = tsdn_fetch();
@ -80,7 +80,7 @@ TEST_BEGIN(test_rtree_bits) {
edata_t edata;
edata_init(&edata, INVALID_ARENA_IND, NULL, 0, false, SC_NSIZES, 0,
extent_state_active, false, false, true, EXTENT_NOT_HEAD);
extent_state_active, false, false, false, EXTENT_NOT_HEAD);
rtree_t *rtree = &test_rtree;
rtree_ctx_t rtree_ctx;
@ -126,7 +126,7 @@ TEST_BEGIN(test_rtree_random) {
edata_t edata;
edata_init(&edata, INVALID_ARENA_IND, NULL, 0, false, SC_NSIZES, 0,
extent_state_active, false, false, true, EXTENT_NOT_HEAD);
extent_state_active, false, false, false, EXTENT_NOT_HEAD);
expect_false(rtree_new(rtree, base, false),
"Unexpected rtree_new() failure");

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@ -12,7 +12,7 @@ TEST_BEGIN(test_arena_slab_regind) {
edata_init(&slab, INVALID_ARENA_IND,
mallocx(bin_info->slab_size, MALLOCX_LG_ALIGN(LG_PAGE)),
bin_info->slab_size, true,
binind, 0, extent_state_active, false, true, true,
binind, 0, extent_state_active, false, true, false,
EXTENT_NOT_HEAD);
expect_ptr_not_null(edata_addr_get(&slab),
"Unexpected malloc() failure");