pmemobj_tx_alloc - Man Page

Name

pmemobj_tx_alloc(), pmemobj_tx_zalloc(), pmemobj_tx_xalloc(), pmemobj_tx_realloc(), pmemobj_tx_zrealloc(), pmemobj_tx_strdup(), pmemobj_tx_xstrdup(), pmemobj_tx_wcsdup(), pmemobj_tx_xwcsdup(), pmemobj_tx_free(), pmemobj_tx_xfree()

TX_NEW(), TX_ALLOC(), TX_ZNEW(), TX_ZALLOC(), TX_XALLOC(), TX_REALLOC(), TX_ZREALLOC(), TX_STRDUP(), TX_XSTRDUP(), TX_WCSDUP(), TX_XWCSDUP(), TX_FREE(), TX_XFREE() ā€” transactional object manipulation

Synopsis

#include <libpmemobj.h>

PMEMoid pmemobj_tx_alloc(size_t size, uint64_t type_num);
PMEMoid pmemobj_tx_zalloc(size_t size, uint64_t type_num);
PMEMoid pmemobj_tx_xalloc(size_t size, uint64_t type_num, uint64_t flags);
PMEMoid pmemobj_tx_realloc(PMEMoid oid, size_t size, uint64_t type_num);
PMEMoid pmemobj_tx_zrealloc(PMEMoid oid, size_t size, uint64_t type_num);
PMEMoid pmemobj_tx_strdup(const char *s, uint64_t type_num);
PMEMoid pmemobj_tx_wcsdup(const wchar_t *s, uint64_t type_num);
int pmemobj_tx_free(PMEMoid oid);
int pmemobj_tx_xfree(PMEMoid oid, uint64_t flags);

TX_NEW(TYPE)
TX_ALLOC(TYPE, size_t size)
TX_ZNEW(TYPE)
TX_ZALLOC(TYPE, size_t size)
TX_XALLOC(TYPE, size_t size, uint64_t flags)
TX_REALLOC(TOID o, size_t size)
TX_ZREALLOC(TOID o, size_t size)
TX_STRDUP(const char *s, uint64_t type_num)
TX_WCSDUP(const wchar_t *s, uint64_t type_num)
TX_FREE(TOID o)
TX_XFREE(TOID o, uint64_t flags)

Description

The pmemobj_tx_alloc() function transactionally allocates a new object of given size and type_num. In contrast to the non-transactional allocations, the objects are added to the internal object containers of given type_num only after the transaction is committed, making the objects visible to the POBJ_FOREACH_*() macros. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_zalloc() function transactionally allocates a new zeroed object of given size and type_num. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_xalloc() function transactionally allocates a new object of given size and type_num. The flags argument is a bitmask of the following values:

This function must be called during TX_STAGE_WORK.

The pmemobj_tx_realloc() function transactionally resizes an existing object to the given size and changes its type to type_num. If oid is OID_NULL, then the call is equivalent to pmemobj_tx_alloc(pop, size, type_num). If size is equal to zero and oid is not OID_NULL, then the call is equivalent to pmemobj_tx_free(oid). If the new size is larger than the old size, the added memory will not be initialized. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_zrealloc() function transactionally resizes an existing object to the given size and changes its type to type_num. If the new size is larger than the old size, the extended new space is zeroed. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_strdup() function transactionally allocates a new object containing a duplicate of the string s and assigns it a type type_num. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_xstrdup() function behaves exactly the same as pmemobj_tx_strdup() when flags equals zero. The flags argument is a bitmask of values described in pmemobj_tx_xalloc section.

The pmemobj_tx_wcsdup() function transactionally allocates a new object containing a duplicate of the wide character string s and assigns it a type type_num. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_xwcsdup() function behaves exactly the same as pmemobj_tx_wcsdup() when flags equals zero. The flags argument is a bitmask of values described in pmemobj_tx_xalloc section.

The pmemobj_tx_free() function transactionally frees an existing object referenced by oid. This function must be called during TX_STAGE_WORK.

The pmemobj_tx_xfree() function behaves exactly the same as pmemobj_tx_free() when flags equals zero. flags is a bitmask of the following value:

This function must be called during TX_STAGE_WORK.

The TX_NEW() macro transactionally allocates a new object of given TYPE and assigns it a type number read from the typed OID. The allocation size is determined from the size of the user-defined structure TYPE. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_ALLOC() macro transactionally allocates a new object of given TYPE and assigns it a type number read from the typed OID. The allocation size is passed by size parameter. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the stage is set to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_ZNEW() macro transactionally allocates a new zeroed object of given TYPE and assigns it a type number read from the typed OID. The allocation size is determined from the size of the user-defined structure TYPE. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, stage changes to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_ZALLOC() macro transactionally allocates a new zeroed object of given TYPE and assigns it a type number read from the typed OID. The allocation size is passed by size argument. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_XALLOC() macro transactionally allocates a new object of given TYPE and assigns it a type number read from the typed OID. The allocation size is passed by size argument. The flags argument is a bitmask of values described in pmemobj_tx_xalloc section. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the OID_NULL is returned, errno is set and when flags do not contain POBJ_XALLOC_NO_ABORT, the transaction is aborted.

The TX_REALLOC() macro transactionally resizes an existing object referenced by a handle o to the given size. If successful and called during TX_STAGE_WORK it returns a handle to the reallocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_ZREALLOC() macro transactionally resizes an existing object referenced by a handle o to the given size. If the new size is larger than the old size, the extended new space is zeroed. If successful and called during TX_STAGE_WORK it returns a handle to the reallocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_STRDUP() macro transactionally allocates a new object containing a duplicate of the string s and assigns it type type_num. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_XSTRDUP() macro transactionally allocates a new object containing a duplicate of the string s and assigns it type type_num. The flags argument is a bitmask of values described in pmemobj_tx_xalloc section. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the OID_NULL is returned, errno is set and when flags do not contain POBJ_XALLOC_NO_ABORT, the transaction is aborted.

The TX_WCSDUP() macro transactionally allocates a new object containing a duplicate of the wide character string s and assigns it a type type_num. If successful and called during TX_STAGE_WORK, it returns a handle to the newly allocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately.

The TX_XWCSDUP() macro transactionally allocates a new object containing a duplicate of the wide character string s and assigns it a type type_num. The flags argument is a bitmask of values described in pmemobj_tx_xalloc section. If successful and called during TX_STAGE_WORK it returns a handle to the newly allocated object. Otherwise, the OID_NULL is returned, errno is set and when flags do not contain POBJ_XALLOC_NO_ABORT, the transaction is aborted.

The TX_FREE() macro transactionally frees the memory space represented by an object handle o. If o is OID_NULL, no operation is performed. If successful and called during TX_STAGE_WORK, TX_FREE() returns 0. Otherwise, the stage is changed to TX_STAGE_ONABORT and errno is set appropriately.

The TX_XFREE() macro transactionally frees the memory space represented by an object handle o. If o is OID_NULL, no operation is performed. The flags argument is a bitmask of values described in pmemobj_tx_xfree section. If successful and called during TX_STAGE_WORK, TX_FREE() returns 0. Otherwise, the error number is returned, errno is set and when flags do not contain POBJ_XFREE_NO_ABORT, the transaction is aborted.

Return Value

On success, the pmemobj_tx_alloc(), pmemobj_tx_zalloc(), pmemobj_tx_strdup() and pmemobj_tx_wcsdup() functions return a handle to the newly allocated object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately. If size equals 0, OID_NULL is returned and errno is set appropriately.

On success, the pmemobj_tx_xalloc(), pmemobj_tx_xstrdup() and pmemobj_tx_xwcsdup() functions return a handle to the newly allocated object. Otherwise, the OID_NULL is returned, errno is set and when flags do not contain POBJ_XALLOC_NO_ABORT, the transaction is aborted.

On success, pmemobj_tx_realloc() and pmemobj_tx_zrealloc() return a handle to the resized object. Otherwise, the stage is changed to TX_STAGE_ONABORT, OID_NULL is returned, and errno is set appropriately. Note that the object handle value may change as a result of reallocation.

On success, pmemobj_tx_free() returns 0. Otherwise, the stage is changed to TX_STAGE_ONABORT, errno is set appropriately and transaction is aborted

On success pmemobj_tx_xfree() returns 0. Otherwise, the error number is returned, errno is set and when flags do not contain POBJ_XFREE_NO_ABORT, the transaction is aborted.

See Also

pmemobj_tx_add_range(3), pmemobj_tx_begin(3), libpmemobj(7) and https://pmem.io\c

Referenced By

libpmemobj(7), pmemobj_action(3), pmemobj_mutex_zero(3), pmemobj_tx_add_range(3), pmemobj_tx_begin(3).

The man pages pmemobj_tx_free(3), pmemobj_tx_realloc(3), pmemobj_tx_strdup(3), pmemobj_tx_wcsdup(3), pmemobj_tx_xalloc(3), pmemobj_tx_xfree(3), pmemobj_tx_xstrdup(3), pmemobj_tx_xwcsdup(3), pmemobj_tx_zalloc(3), pmemobj_tx_zrealloc(3), tx_alloc(3), tx_free(3), tx_new(3), tx_realloc(3), tx_strdup(3), tx_wcsdup(3), tx_xalloc(3), tx_xfree(3), tx_xstrdup(3), tx_xwcsdup(3), tx_zalloc(3), tx_znew(3) and tx_zrealloc(3) are aliases of pmemobj_tx_alloc(3).

2024-07-18 PMDK - PMDK Programmer's Manual