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NAMEpmemobj_tx_add_range(), pmemobj_tx_add_range_direct(), pmemobj_tx_xadd_range(), pmemobj_tx_xadd_range_direct()TX_ADD(), TX_ADD_FIELD(), TX_ADD_DIRECT(), TX_ADD_FIELD_DIRECT(), TX_XADD(), TX_XADD_FIELD(), TX_XADD_DIRECT(), TX_XADD_FIELD_DIRECT(), TX_SET(), TX_SET_DIRECT(), TX_MEMCPY(), TX_MEMSET() - transactional object manipulation SYNOPSIS
DESCRIPTIONpmemobj_tx_add_range() takes a “snapshot” of the memory block of given size, located at given offset off in the object specified by oid, and saves it to the undo log. The application is then free to directly modify the object in that memory range. In case of a failure or abort, all the changes within this range will be rolled back. The supplied block of memory has to be within the pool registered in the transaction. This function must be called during TX_STAGE_WORK.The pmemobj_tx_xadd_range() function behaves exactly the same as pmemobj_tx_add_range() when flags equals zero. flags is a bitmask of the following values:
pmemobj_tx_add_range_direct() behaves the same as pmemobj_tx_add_range() with the exception that it operates on virtual memory addresses and not persistent memory objects. It takes a “snapshot” of a persistent memory block of given size, located at the given address ptr in the virtual memory space and saves it to the undo log. The application is then free to directly modify the object in that memory range. In case of a failure or abort, all the changes within this range will be rolled back. The supplied block of memory has to be within the pool registered in the transaction. This function must be called during TX_STAGE_WORK. The pmemobj_tx_xadd_range_direct() function behaves exactly the same as pmemobj_tx_add_range_direct() when flags equals zero. flags is a bitmask of the following values:
Similarly to the macros controlling the transaction flow, libpmemobj defines a set of macros that simplify the transactional operations on persistent objects. Note that those macros operate on typed object handles, thus eliminating the need to specify the size of the object, or the size and offset of the field in the user-defined structure that is to be modified. The TX_ADD_FIELD() macro saves the current value of given FIELD of the object referenced by a handle o in the undo log. The application is then free to directly modify the specified FIELD. In case of a failure or abort, the saved value will be restored. The TX_XADD_FIELD() macro works exactly like TX_ADD_FIELD when flags equals 0. The flags argument is a bitmask of values described in pmemobj_tx_xadd_range, above. The TX_ADD() macro takes a “snapshot” of the entire object referenced by object handle o and saves it in the undo log. The object size is determined from its TYPE. The application is then free to directly modify the object. In case of a failure or abort, all the changes within the object will be rolled back. The TX_XADD() macro works exactly like TX_ADD when flags equals 0. The flags argument is a bitmask of values as described in pmemobj_tx_xadd_range, above. The TX_ADD_FIELD_DIRECT() macro saves the current value of the given FIELD of the object referenced by (direct) pointer p in the undo log. The application is then free to directly modify the specified FIELD. In case of a failure or abort, the saved value will be restored. The TX_XADD_FIELD_DIRECT() macro works exactly like TX_ADD_FIELD_DIRECT when flags equals 0. The flags argument is a bitmask of values as described in pmemobj_tx_xadd_range_direct, above. The TX_ADD_DIRECT() macro takes a “snapshot” of the entire object referenced by (direct) pointer p and saves it in the undo log. The object size is determined from its TYPE. The application is then free to directly modify the object. In case of a failure or abort, all the changes within the object will be rolled back. The TX_XADD_DIRECT() macro works exactly like TX_ADD_DIRECT when flags equals 0. The flags argument is a bitmask of values as described in pmemobj_tx_xadd_range_direct, above. The TX_SET() macro saves the current value of the given FIELD of the object referenced by handle o in the undo log, and then sets its new VALUE. In case of a failure or abort, the saved value will be restored. The TX_SET_DIRECT() macro saves in the undo log the current value of given FIELD of the object referenced by (direct) pointer p, and then set its new VALUE. In case of a failure or abort, the saved value will be restored. The TX_MEMCPY() macro saves in the undo log the current content of dest buffer and then overwrites the first num bytes of its memory area with the data copied from the buffer pointed by src. In case of a failure or abort, the saved value will be restored. The TX_MEMSET() macro saves the current content of the dest buffer in the undo log and then fills the first num bytes of its memory area with the constant byte c. In case of a failure or abort, the saved value will be restored. RETURN VALUEOn success, pmemobj_tx_add_range(), pmemobj_tx_xadd_range(), pmemobj_tx_add_range_direct() and pmemobj_tx_xadd_range_direct() return 0. Otherwise, the stage is changed to TX_STAGE_ONABORT and an error number is returned.SEE ALSOpmemobj_tx_alloc(3), pmemobj_tx_begin(3), libpmemobj(7) and <http://pmem.io>
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