#include <libpmem2.h> typedef void (*pmem2_persist_fn)(const void *ptr, size_t size); struct pmem2_map; pmem2_persist_fn pmem2_get_persist_fn(struct pmem2_map *map);
The pmem2_get_persist_fn() function returns a pointer to a function responsible for efficiently persisting data in the range owned by the map.
Persisting data using pmem2_persist_fn guarantees that the data is stored durably by the time it returns.
There are no alignment restrictions on the range described by ptr and size, but pmem2_persist_fn may expand the range as necessary to meet platform alignment requirements.
There is nothing atomic or transactional about pmem2_persist_fn. Any unwritten stores in the given range will be written, but some stores may have already been written by virtue of normal cache eviction/replacement policies. Correctly written code must not depend on stores waiting until pmem2_persist_fn is called to become persistent – they can become persistent at any time before pmem2_persist_fn is called.
If two (or more) mappings share the same pmem2_persist_fn and they are adjacent to each other, it is safe to call this function for a range spanning those mappings.
Internally pmem2_persist_fn performs two operations:
- memory flush (pmem2_get_flush_fn(3)), which can be reordered by the CPU with other flushes
- drain (pmem2_get_drain_fn(3)), which makes sure that the flushes before this operation won’t be reordered after it
So this code:
pmem2_persist_fn persist_fn = pmem2_get_persist_fn(map); persist_fn(addr, len);
is equivalent of:
pmem2_flush_fn flush_fn = pmem2_get_flush_fn(map); pmem2_drain_fn drain_fn = pmem2_get_drain_fn(map); flush_fn(addr, len); drain_fn();
Advanced applications may want to flush multiple discontiguous regions and perform the drain operation only once.
The pmem2_get_persist_fn() function never returns NULL.
The pmem2_get_persist_fn() for the same map always returns the same function. This means that it’s safe to cache its return value. However, this function is very cheap (because it returns a precomputed value), so caching may not be necessary.
pmem2_get_drain_fn(3), pmem2_get_flush_fn(3), pmem2_map_new(3), libpmem2(7) and <https://pmem.io>
libpmem2(7), pmem2_async(3), pmem2_deep_flush(3), pmem2_get_drain_fn(3), pmem2_get_flush_fn(3), pmem2_get_memmove_fn(3).