hpdata: Add state changing helpers.
We're about to allow hugepage subextent purging; get as much of our metadata handling ready as possible.
This commit is contained in:
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9b75808be1
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70692cfb13
@ -34,6 +34,16 @@ struct hpdata_s {
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uint64_t h_age;
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uint64_t h_age;
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/* Whether or not we think the hugepage is mapped that way by the OS. */
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/* Whether or not we think the hugepage is mapped that way by the OS. */
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bool h_huge;
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bool h_huge;
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/*
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* Whether or not some thread is purging this hpdata (i.e. has called
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* hpdata_purge_begin but not yet called hpdata_purge_end), or
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* hugifying it. Only one thread at a time is allowed to change a
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* hugepage's state.
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*/
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bool h_mid_purge;
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bool h_mid_hugify;
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union {
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union {
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/* When nonempty, used by the psset bins. */
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/* When nonempty, used by the psset bins. */
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phn(hpdata_t) ph_link;
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phn(hpdata_t) ph_link;
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@ -90,6 +100,22 @@ hpdata_huge_get(const hpdata_t *hpdata) {
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return hpdata->h_huge;
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return hpdata->h_huge;
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}
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}
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static inline bool
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hpdata_changing_state_get(const hpdata_t *hpdata) {
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return hpdata->h_mid_purge || hpdata->h_mid_hugify;
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}
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static inline bool
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hpdata_mid_purge_get(const hpdata_t *hpdata) {
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return hpdata->h_mid_purge;
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}
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static inline bool
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hpdata_mid_hugify_get(const hpdata_t *hpdata) {
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return hpdata->h_mid_hugify;
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}
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static inline size_t
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static inline size_t
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hpdata_longest_free_range_get(const hpdata_t *hpdata) {
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hpdata_longest_free_range_get(const hpdata_t *hpdata) {
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return hpdata->h_longest_free_range;
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return hpdata->h_longest_free_range;
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@ -106,6 +132,11 @@ hpdata_nactive_get(hpdata_t *hpdata) {
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return hpdata->h_nactive;
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return hpdata->h_nactive;
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}
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}
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static inline size_t
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hpdata_ndirty_get(hpdata_t *hpdata) {
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return hpdata->h_ndirty;
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}
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static inline void
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static inline void
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hpdata_assert_empty(hpdata_t *hpdata) {
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hpdata_assert_empty(hpdata_t *hpdata) {
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assert(fb_empty(hpdata->active_pages, HUGEPAGE_PAGES));
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assert(fb_empty(hpdata->active_pages, HUGEPAGE_PAGES));
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@ -164,20 +195,69 @@ void hpdata_init(hpdata_t *hpdata, void *addr, uint64_t age);
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void *hpdata_reserve_alloc(hpdata_t *hpdata, size_t sz);
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void *hpdata_reserve_alloc(hpdata_t *hpdata, size_t sz);
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void hpdata_unreserve(hpdata_t *hpdata, void *begin, size_t sz);
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void hpdata_unreserve(hpdata_t *hpdata, void *begin, size_t sz);
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/*
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* Tell the hpdata that it's now a hugepage (which, correspondingly, means that
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* all its pages become dirty.
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*/
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void hpdata_hugify(hpdata_t *hpdata);
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/*
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* Tell the hpdata that it's no longer a hugepage (all its pages are still
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* counted as dirty, though; an explicit purge call is required to change that).
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*/
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void hpdata_dehugify(hpdata_t *hpdata);
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/*
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/*
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* Tell the hpdata (which should be empty) that all dirty pages in it have been
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* Tell the hpdata (which should be empty) that all dirty pages in it have been
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* purged.
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* purged.
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*/
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*/
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void hpdata_purge(hpdata_t *hpdata);
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void hpdata_purge(hpdata_t *hpdata);
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/*
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* The hpdata_purge_prepare_t allows grabbing the metadata required to purge
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* subranges of a hugepage while holding a lock, drop the lock during the actual
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* purging of them, and reacquire it to update the metadata again.
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*/
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typedef struct hpdata_purge_state_s hpdata_purge_state_t;
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struct hpdata_purge_state_s {
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size_t npurged;
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fb_group_t to_purge[FB_NGROUPS(HUGEPAGE_PAGES)];
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size_t next_purge_search_begin;
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};
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/*
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* Initializes purge state. The access to hpdata must be externally
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* synchronized with other hpdata_* calls.
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*
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* You can tell whether or not a thread is purging or hugifying a given hpdata
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* via hpdata_changing_state_get(hpdata). Racing hugification or purging
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* operations aren't allowed.
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*
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* Once you begin purging, you have to follow through and call hpdata_purge_next
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* until you're done, and then end. Allocating out of an hpdata undergoing
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* purging is not allowed.
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*/
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void hpdata_purge_begin(hpdata_t *hpdata, hpdata_purge_state_t *purge_state);
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/*
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* If there are more extents to purge, sets *r_purge_addr and *r_purge_size to
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* true, and returns true. Otherwise, returns false to indicate that we're
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* done.
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*
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* This requires exclusive access to the purge state, but *not* to the hpdata.
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* In particular, unreserve calls are allowed while purging (i.e. you can dalloc
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* into one part of the hpdata while purging a different part).
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*/
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bool hpdata_purge_next(hpdata_t *hpdata, hpdata_purge_state_t *purge_state,
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void **r_purge_addr, size_t *r_purge_size);
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/*
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* Updates the hpdata metadata after all purging is done. Needs external
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* synchronization.
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*/
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void hpdata_purge_end(hpdata_t *hpdata, hpdata_purge_state_t *purge_state);
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/*
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* Similarly, when hugifying , callers can do the metadata modifications while
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* holding a lock (thereby setting the change_state field), but actually do the
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* operation without blocking other threads.
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*/
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void hpdata_hugify_begin(hpdata_t *hpdata);
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void hpdata_hugify_end(hpdata_t *hpdata);
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/*
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* Tell the hpdata that it's no longer a hugepage (all its pages are still
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* counted as dirty, though; an explicit purge call is required to change that).
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*
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* This should only be done after starting to purge, and before actually purging
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* any contents.
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*/
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void hpdata_dehugify(hpdata_t *hpdata);
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#endif /* JEMALLOC_INTERNAL_HPDATA_H */
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#endif /* JEMALLOC_INTERNAL_HPDATA_H */
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@ -300,7 +300,7 @@ hpa_try_alloc_no_grow(tsdn_t *tsdn, hpa_shard_t *shard, size_t size, bool *oom)
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bool hugify = hpa_should_hugify(shard, ps);
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bool hugify = hpa_should_hugify(shard, ps);
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if (hugify) {
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if (hugify) {
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hpdata_hugify(ps);
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hpdata_hugify_begin(ps);
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}
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}
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psset_insert(&shard->psset, ps);
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psset_insert(&shard->psset, ps);
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@ -319,6 +319,9 @@ hpa_try_alloc_no_grow(tsdn_t *tsdn, hpa_shard_t *shard, size_t size, bool *oom)
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* operations in this hpa shard.
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* operations in this hpa shard.
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*/
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*/
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hpa_hugify(ps);
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hpa_hugify(ps);
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malloc_mutex_lock(tsdn, &shard->mtx);
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hpdata_hugify_end(ps);
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malloc_mutex_unlock(tsdn, &shard->mtx);
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}
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}
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return edata;
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return edata;
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}
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}
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112
src/hpdata.c
112
src/hpdata.c
@ -22,6 +22,8 @@ hpdata_init(hpdata_t *hpdata, void *addr, uint64_t age) {
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hpdata_addr_set(hpdata, addr);
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hpdata_addr_set(hpdata, addr);
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hpdata_age_set(hpdata, age);
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hpdata_age_set(hpdata, age);
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hpdata->h_huge = false;
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hpdata->h_huge = false;
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hpdata->h_mid_purge = false;
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hpdata->h_mid_hugify = false;
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hpdata_longest_free_range_set(hpdata, HUGEPAGE_PAGES);
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hpdata_longest_free_range_set(hpdata, HUGEPAGE_PAGES);
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hpdata->h_nactive = 0;
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hpdata->h_nactive = 0;
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fb_init(hpdata->active_pages, HUGEPAGE_PAGES);
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fb_init(hpdata->active_pages, HUGEPAGE_PAGES);
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@ -140,17 +142,125 @@ hpdata_unreserve(hpdata_t *hpdata, void *addr, size_t sz) {
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}
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}
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void
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void
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hpdata_hugify(hpdata_t *hpdata) {
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hpdata_purge_begin(hpdata_t *hpdata, hpdata_purge_state_t *purge_state) {
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hpdata_assert_consistent(hpdata);
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hpdata_assert_consistent(hpdata);
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assert(!hpdata->h_mid_purge);
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assert(!hpdata->h_mid_hugify);
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hpdata->h_mid_purge = true;
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purge_state->npurged = 0;
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purge_state->next_purge_search_begin = 0;
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/*
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* Initialize to_purge with everything that's not active but that is
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* dirty.
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*
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* As an optimization, we could note that in practice we never allocate
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* out of a hugepage while purging within it, and so could try to
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* combine dirty extents separated by a non-dirty but non-active extent
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* to avoid purge calls. This does nontrivially complicate metadata
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* tracking though, so let's hold off for now.
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*/
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fb_bit_not(purge_state->to_purge, hpdata->active_pages, HUGEPAGE_PAGES);
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fb_bit_and(purge_state->to_purge, purge_state->to_purge,
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hpdata->dirty_pages, HUGEPAGE_PAGES);
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/* We purge everything we can. */
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assert(hpdata->h_ndirty - hpdata->h_nactive == fb_scount(
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purge_state->to_purge, HUGEPAGE_PAGES, 0, HUGEPAGE_PAGES));
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hpdata_assert_consistent(hpdata);
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}
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bool
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hpdata_purge_next(hpdata_t *hpdata, hpdata_purge_state_t *purge_state,
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void **r_purge_addr, size_t *r_purge_size) {
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/*
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* Note that we don't have a consistency check here; we're accessing
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* hpdata without synchronization, and therefore have no right to expect
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* a consistent state.
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*/
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assert(hpdata->h_mid_purge);
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/* Should have dehugified already (if necessary). */
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assert(!hpdata->h_huge);
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assert(!hpdata->h_mid_hugify);
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if (purge_state->next_purge_search_begin == HUGEPAGE_PAGES) {
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return false;
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}
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size_t purge_begin;
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size_t purge_len;
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bool found_range = fb_srange_iter(purge_state->to_purge, HUGEPAGE_PAGES,
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purge_state->next_purge_search_begin, &purge_begin, &purge_len);
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if (!found_range) {
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return false;
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}
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*r_purge_addr = (void *)(
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(uintptr_t)hpdata_addr_get(hpdata) + purge_begin * PAGE);
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*r_purge_size = purge_len * PAGE;
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purge_state->next_purge_search_begin = purge_begin + purge_len;
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purge_state->npurged += purge_len;
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assert(purge_state->npurged <= HUGEPAGE_PAGES);
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return true;
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}
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void
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hpdata_purge_end(hpdata_t *hpdata, hpdata_purge_state_t *purge_state) {
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hpdata_assert_consistent(hpdata);
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assert(hpdata->h_mid_purge);
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assert(!hpdata->h_mid_hugify);
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hpdata->h_mid_purge = false;
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assert(purge_state->npurged == fb_scount(purge_state->to_purge,
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HUGEPAGE_PAGES, 0, HUGEPAGE_PAGES));
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fb_bit_not(purge_state->to_purge, purge_state->to_purge,
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HUGEPAGE_PAGES);
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fb_bit_and(hpdata->dirty_pages, hpdata->dirty_pages,
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purge_state->to_purge, HUGEPAGE_PAGES);
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assert(hpdata->h_ndirty >= purge_state->npurged);
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hpdata->h_ndirty -= purge_state->npurged;
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hpdata_assert_consistent(hpdata);
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}
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void
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hpdata_hugify_begin(hpdata_t *hpdata) {
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hpdata_assert_consistent(hpdata);
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assert(!hpdata->h_mid_purge);
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assert(!hpdata->h_mid_hugify);
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hpdata->h_mid_hugify = true;
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hpdata->h_huge = true;
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hpdata->h_huge = true;
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fb_set_range(hpdata->dirty_pages, HUGEPAGE_PAGES, 0, HUGEPAGE_PAGES);
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fb_set_range(hpdata->dirty_pages, HUGEPAGE_PAGES, 0, HUGEPAGE_PAGES);
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hpdata->h_ndirty = HUGEPAGE_PAGES;
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hpdata->h_ndirty = HUGEPAGE_PAGES;
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hpdata_assert_consistent(hpdata);
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hpdata_assert_consistent(hpdata);
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}
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}
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void
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hpdata_hugify_end(hpdata_t *hpdata) {
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hpdata_assert_consistent(hpdata);
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assert(!hpdata->h_mid_purge);
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assert(hpdata->h_mid_hugify);
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hpdata->h_mid_hugify = false;
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hpdata_assert_consistent(hpdata);
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}
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void
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void
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hpdata_dehugify(hpdata_t *hpdata) {
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hpdata_dehugify(hpdata_t *hpdata) {
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hpdata_assert_consistent(hpdata);
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hpdata_assert_consistent(hpdata);
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/*
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* These asserts are morally right; for now, though, we have the "purge a
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* hugepage only in its entirety, when it becomes empty", path sharing
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* hpdata_dehugify with the new purge pathway coming in the next
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* commit.
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*/
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/*
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assert(hpdata->h_mid_purge);
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assert(!hpdata->h_mid_hugify);
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*/
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hpdata->h_huge = false;
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hpdata->h_huge = false;
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hpdata_assert_consistent(hpdata);
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hpdata_assert_consistent(hpdata);
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}
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}
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@ -55,7 +55,132 @@ TEST_BEGIN(test_reserve_alloc) {
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}
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}
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TEST_END
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TEST_END
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TEST_BEGIN(test_purge_simple) {
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hpdata_t hpdata;
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hpdata_init(&hpdata, HPDATA_ADDR, HPDATA_AGE);
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void *alloc = hpdata_reserve_alloc(&hpdata, HUGEPAGE_PAGES / 2 * PAGE);
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expect_ptr_eq(alloc, HPDATA_ADDR, "");
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/* Create HUGEPAGE_PAGES / 4 dirty inactive pages at the beginning. */
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hpdata_unreserve(&hpdata, alloc, HUGEPAGE_PAGES / 4 * PAGE);
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expect_zu_eq(hpdata_ndirty_get(&hpdata), HUGEPAGE_PAGES / 2, "");
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expect_false(hpdata_changing_state_get(&hpdata), "");
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hpdata_purge_state_t purge_state;
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hpdata_purge_begin(&hpdata, &purge_state);
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expect_true(hpdata_changing_state_get(&hpdata), "");
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void *purge_addr;
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size_t purge_size;
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bool got_result = hpdata_purge_next(&hpdata, &purge_state, &purge_addr,
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&purge_size);
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expect_true(got_result, "");
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expect_ptr_eq(HPDATA_ADDR, purge_addr, "");
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expect_zu_eq(HUGEPAGE_PAGES / 4 * PAGE, purge_size, "");
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|
|
||||||
|
expect_true(hpdata_changing_state_get(&hpdata), "");
|
||||||
|
|
||||||
|
got_result = hpdata_purge_next(&hpdata, &purge_state, &purge_addr,
|
||||||
|
&purge_size);
|
||||||
|
expect_false(got_result, "Unexpected additional purge range: "
|
||||||
|
"extent at %p of size %zu", purge_addr, purge_size);
|
||||||
|
|
||||||
|
expect_true(hpdata_changing_state_get(&hpdata), "");
|
||||||
|
|
||||||
|
hpdata_purge_end(&hpdata, &purge_state);
|
||||||
|
expect_false(hpdata_changing_state_get(&hpdata), "");
|
||||||
|
expect_zu_eq(hpdata_ndirty_get(&hpdata), HUGEPAGE_PAGES / 4, "");
|
||||||
|
}
|
||||||
|
TEST_END
|
||||||
|
|
||||||
|
/*
|
||||||
|
* We only test intervening dalloc's not intervening allocs; we don't need
|
||||||
|
* intervening allocs, and foreseeable optimizations will make them not just
|
||||||
|
* unnecessary but incorrect. In particular, if there are two dirty extents
|
||||||
|
* separated only by a retained extent, we can just purge the entire range,
|
||||||
|
* saving a purge call.
|
||||||
|
*/
|
||||||
|
TEST_BEGIN(test_purge_intervening_dalloc) {
|
||||||
|
hpdata_t hpdata;
|
||||||
|
hpdata_init(&hpdata, HPDATA_ADDR, HPDATA_AGE);
|
||||||
|
|
||||||
|
/* Allocate the first 3/4 of the pages. */
|
||||||
|
void *alloc = hpdata_reserve_alloc(&hpdata, 3 * HUGEPAGE_PAGES / 4 * PAGE);
|
||||||
|
expect_ptr_eq(alloc, HPDATA_ADDR, "");
|
||||||
|
|
||||||
|
/* Free the first 1/4 and the third 1/4 of the pages. */
|
||||||
|
hpdata_unreserve(&hpdata, alloc, HUGEPAGE_PAGES / 4 * PAGE);
|
||||||
|
hpdata_unreserve(&hpdata,
|
||||||
|
(void *)((uintptr_t)alloc + 2 * HUGEPAGE_PAGES / 4 * PAGE),
|
||||||
|
HUGEPAGE_PAGES / 4 * PAGE);
|
||||||
|
|
||||||
|
expect_zu_eq(hpdata_ndirty_get(&hpdata), 3 * HUGEPAGE_PAGES / 4, "");
|
||||||
|
|
||||||
|
hpdata_purge_state_t purge_state;
|
||||||
|
hpdata_purge_begin(&hpdata, &purge_state);
|
||||||
|
|
||||||
|
void *purge_addr;
|
||||||
|
size_t purge_size;
|
||||||
|
/* First purge. */
|
||||||
|
bool got_result = hpdata_purge_next(&hpdata, &purge_state, &purge_addr,
|
||||||
|
&purge_size);
|
||||||
|
expect_true(got_result, "");
|
||||||
|
expect_ptr_eq(HPDATA_ADDR, purge_addr, "");
|
||||||
|
expect_zu_eq(HUGEPAGE_PAGES / 4 * PAGE, purge_size, "");
|
||||||
|
|
||||||
|
/* Deallocate the second 1/4 before the second purge occurs. */
|
||||||
|
hpdata_unreserve(&hpdata,
|
||||||
|
(void *)((uintptr_t)alloc + 1 * HUGEPAGE_PAGES / 4 * PAGE),
|
||||||
|
HUGEPAGE_PAGES / 4 * PAGE);
|
||||||
|
|
||||||
|
/* Now continue purging. */
|
||||||
|
got_result = hpdata_purge_next(&hpdata, &purge_state, &purge_addr,
|
||||||
|
&purge_size);
|
||||||
|
expect_true(got_result, "");
|
||||||
|
expect_ptr_eq(
|
||||||
|
(void *)((uintptr_t)alloc + 2 * HUGEPAGE_PAGES / 4 * PAGE),
|
||||||
|
purge_addr, "");
|
||||||
|
expect_zu_eq(HUGEPAGE_PAGES / 4 * PAGE, purge_size, "");
|
||||||
|
|
||||||
|
got_result = hpdata_purge_next(&hpdata, &purge_state, &purge_addr,
|
||||||
|
&purge_size);
|
||||||
|
expect_false(got_result, "Unexpected additional purge range: "
|
||||||
|
"extent at %p of size %zu", purge_addr, purge_size);
|
||||||
|
|
||||||
|
hpdata_purge_end(&hpdata, &purge_state);
|
||||||
|
|
||||||
|
expect_zu_eq(hpdata_ndirty_get(&hpdata), HUGEPAGE_PAGES / 4, "");
|
||||||
|
}
|
||||||
|
TEST_END
|
||||||
|
|
||||||
|
TEST_BEGIN(test_hugify) {
|
||||||
|
hpdata_t hpdata;
|
||||||
|
hpdata_init(&hpdata, HPDATA_ADDR, HPDATA_AGE);
|
||||||
|
|
||||||
|
void *alloc = hpdata_reserve_alloc(&hpdata, HUGEPAGE / 2);
|
||||||
|
expect_ptr_eq(alloc, HPDATA_ADDR, "");
|
||||||
|
|
||||||
|
expect_zu_eq(HUGEPAGE_PAGES / 2, hpdata_ndirty_get(&hpdata), "");
|
||||||
|
|
||||||
|
expect_false(hpdata_changing_state_get(&hpdata), "");
|
||||||
|
hpdata_hugify_begin(&hpdata);
|
||||||
|
expect_true(hpdata_changing_state_get(&hpdata), "");
|
||||||
|
hpdata_hugify_end(&hpdata);
|
||||||
|
expect_false(hpdata_changing_state_get(&hpdata), "");
|
||||||
|
|
||||||
|
/* Hugeifying should have increased the dirty page count. */
|
||||||
|
expect_zu_eq(HUGEPAGE_PAGES, hpdata_ndirty_get(&hpdata), "");
|
||||||
|
}
|
||||||
|
TEST_END
|
||||||
|
|
||||||
int main(void) {
|
int main(void) {
|
||||||
return test_no_reentrancy(
|
return test_no_reentrancy(
|
||||||
test_reserve_alloc);
|
test_reserve_alloc,
|
||||||
|
test_purge_simple,
|
||||||
|
test_purge_intervening_dalloc,
|
||||||
|
test_hugify);
|
||||||
}
|
}
|
||||||
|
Loading…
Reference in New Issue
Block a user